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Author name code: weigelt
ADS astronomy entries on 2022-09-14
author:"Weigelt, Gerd" 

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Title: The dust sublimation region of the Type 1 AGN NGC4151 at
    a hundred micro-arcsecond scale as resolved by the CHARA Array
    interferometer
Authors: Kishimoto, Makoto; Anderson, Matt; ten Brummelaar, Theo;
   Farrington, Christopher; Antonucci, Robert; Hoenig, Sebastian; Millour,
   Florentin; Tristram, Konrad; Weigelt, Gerd; Sturmann, Laszlo; Sturmann,
   Judit; Schaefer, Gail; Scott, Nic
2022arXiv220906061K    Altcode:
  The nuclear region of Type 1 AGNs has only been partially resolved
  so far in the near-infrared (IR) where we expect to see the dust
  sublimation region and the nucleus directly without obscuration. Here
  we present the near-IR interferometric observation of the brightest
  Type 1 AGN NGC4151 at long baselines of ~250 m using the CHARA Array,
  reaching structures at hundred micro-arcsecond scales. The squared
  visibilities decrease down to as low as ~0.25, definitely showing that
  the structure is resolved. Furthermore, combining with the previous
  visibility measurements at shorter baselines but at different position
  angles, we show that the structure is elongated *perpendicular* to
  the polar axis of the nucleus, as defined by optical polarization and
  a linear radio jet. A thin-ring fit gives a minor/major axis ratio of
  ~0.7 at a radius ~0.5 mas (~0.03 pc). This is consistent with the case
  where the sublimating dust grains are distributed preferentially in an
  equatorial plane in a ring-like geometry, viewed at an inclination angle
  of ~40 deg. Recent mid-IR interferometric finding of polar-elongated
  geometry at a pc scale, together with a larger-scale polar outflow as
  spectrally resolved by the HST, would generally suggest a dusty, conical
  and hollow outflow being launched presumably in the dust sublimation
  region. This might potentially lead to a polar-elongated morphology
  in the near-IR, as opposed to the results here. We discuss a possible
  scenario where an episodic, one-off anisotropic acceleration formed
  a polar-fast and equatorially-slow velocity distribution, having lead
  to an effectively flaring geometry as we observe.

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Title: Changes in the Na D$_1$ Absorption Components of $\eta$ Carinae
    Provide Clues on the Location of the Dissipating Central Occulter
Authors: Pickett, Connor S.; Richardson, Noel D.; Gull, Theodore;
   Hillier, D. John; Hartman, Henrik; Ibrahim, Nour; Lane, Alexis M.;
   Strawn, Emily; Damineli, Augusto; Moffat, Anthony F. J.; Navarete,
   Felipe; Weigelt, Gerd
2022arXiv220806389P    Altcode:
  The Na D absorption doublet in the spectrum of $\eta$ Carinae is
  complex, with multiple absorption features associated with the Great
  Eruption (1840s), the Lesser Eruption (1890s), and interstellar
  clouds. The velocity profile is further complicated by the P Cygni
  profile originating in the system's stellar winds and blending
  with the He I $\lambda$5876 profile. The Na D profile contains a
  multitude of absorption components, including those at velocities of
  $-$145 km s$^{-1}$, $-$168 km s$^{-1}$, and $+$87 km s$^{-1}$ that we
  concentrate on in this analysis. Ground-based spectra recorded from
  2008 to 2021 show significant variability of the $-$145 km s$^{-1}$
  absorption throughout long-term observations. In the high ionization
  phases of $\eta$ Carinae prior to the 2020 periastron passage, this
  feature disappeared completely but briefly reappeared across the 2020
  periastron, along with a second absorption at $-$168 km s$^{-1}$. Over
  the past few decades, $\eta$ Car has been gradually brightening
  demonstrated to be caused by a dissipating occulter. The decreasing
  absorption of the $-$145 km s$^{-1}$ component, coupled with similar
  trends seen in absorptions of ultraviolet resonant lines, indicate
  that this central occulter was possibly a large clump associated with
  the Little Homunculus or another clump between the Little Homunculus
  and the star. We also report on a foreground absorption component at
  $+$87 km s$^{-1}$. Comparison of Na D absorption in the spectra of
  nearby systems demonstrates that this red-shifted component likely
  originates in an extended foreground structure consistent with a
  previous ultraviolet spectral survey in the Carina Nebula.

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Title: Locating dust and molecules in the inner circumstellar
    environment of R~Sculptoris with MATISSE
Authors: Drevon, Julien; Millour, Florentin; Cruzalèbes, Pierre;
   Paladini, Claudia; Hron, Josef; Meilland, A.; Allouche, F.; Hofmann,
   K. -H.; Lagarde, S.; Lopez, B.; Matter, A.; Petrov, R.; Robbe-Dubois,
   S.; Schertl, D.; Wittkowski, M.; Zins, G.; Ábrahám, P.; Antonelli,
   P.; Beckmann, U.; Berio, P.; Bettonvil, F.; Glindemann, A.; Graser,
   U.; Heininger, M.; Henning, Thomas; Isbell, Jacob W.; Jaffe,
   Walter; Labadie, Lucas; Leinert, Christoph; Lehmitz, Michael;
   Morel, Sébastien; Meisenheimer, Klaus; Soulain, Anthony; Varga,
   Josef; Weigelt, Gerd; Woillez, Julien; Augereau, Jean-Charles; van
   Boekel, Roy; Burtscher, Leonard; Danchi, William; Dominik, Carsten;
   Gamez-Rosas, Violetta; Hocdé, Vincent; Hogerheijde, M.; Klarmann,
   Lucia; Kokoulina, Elena; Leftley, James; Stee, Ph.; Vakili, Farrokh;
   Waters, Rens; Wolf, Sebastian; Yoffe, Gideon
2022arXiv220810845D    Altcode:
  AGB stars are one of the main sources of dust production in the
  Galaxy. However, it is not clear what this process looks like and
  where the dust is condensing in the circumstellar environment. By
  characterizing the location of the dust and the molecules in the close
  environment of an AGB star, we aim to achieve a better understanding
  the history of the dust formation process. We observed the carbon star
  R Scl with the VLTI-MATISSE instrument in L- and N-bands. The high
  angular resolution of the VLTI observations, combined with a large
  uv-plane coverage allowed us to use image reconstruction methods. To
  constrain the dust and molecules' location, we used two different
  methods: MIRA image reconstruction and the 1D code RHAPSODY. We found
  evidence of C2H2 and HCN molecules between 1 and 3.4 Rstar which is
  much closer to the star than the location of the dust (between 3.8
  and 17.0 Rstar). We also estimated a mass-loss rate of 1.2+-0.4x10-6
  Msun per yr. In the meantime, we confirmed the previously published
  characteristics of a thin dust shell, composed of amorphous carbon
  (amC) and silicon carbide (SiC). However, no clear SiC feature has
  been detected in the MATISSE visibilities. This might be caused by
  molecular absorption that can affect the shape of the SiC band at 11.3
  micron. The appearance of the molecular shells is in good agreement
  with predictions from dynamical atmosphere models. For the first time,
  we co-located dust and molecules in the environment of an AGB star. We
  confirm that the molecules are located closer to the star than the
  dust. The MIRA images unveil the presence of a clumpy environment in the
  fuzzy emission region beyond 4.0 Rstar. Furthermore, with the available
  dynamic range and angular resolution, we did not detect the presence
  of a binary companion. Additional observations combining MATISSE and
  SAM-VISIR instrument should enable this detection in future studies.

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Title: Eta Carinae: An Evolving View of the Central Binary, Its
    Interacting Winds and Its Foreground Ejecta
Authors: Gull, Theodore R.; Hillier, D. John; Hartman, Henrik;
   Corcoran, Michael F.; Damineli, Augusto; Espinoza-Galeas, David;
   Hamaguchi, Kenji; Navarete, Felipe; Nielsen, Krister; Madura, Thomas;
   Moffat, Anthony F. J.; Morris, Patrick; Richardson, Noel D.; Russell,
   Christopher M. P.; Stevens, Ian R.; Weigelt, Gerd
2022ApJ...933..175G    Altcode: 2022arXiv220515116G
  FUV spectra of η Car, recorded across two decades with HST/STIS,
  document multiple changes in resonant lines caused by dissipating
  extinction in our line of sight. The FUV flux has increased nearly
  tenfold, which has led to increased ionization of the multiple shells
  within the Homunculus and photodestruction of H<SUB>2</SUB>. Comparison
  of observed resonant line profiles with CMFGEN model profiles allows
  separation of wind-wind collision and shell absorptions from the
  primary wind P Cygni profiles. The dissipating occulter preferentially
  obscured the central binary and interacting winds relative to the
  very extended primary wind. We are now able to monitor changes in
  the colliding winds with orbital phase. High-velocity transient
  absorptions occurred across the most recent periastron passage,
  indicating acceleration of the primary wind by the secondary wind,
  which leads to a downstream, high-velocity bow shock that is newly
  generated every orbital period. There is no evidence of changes in
  the properties of the binary winds.

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Title: The dusty heart of Circinus. I. Imaging the circumnuclear
    dust in N-band
Authors: Isbell, J. W.; Meisenheimer, K.; Pott, J. -U.; Stalevski,
   M.; Tristram, K. R. W.; Sanchez-Bermudez, J.; Hofmann, K. -H.; Gámez
   Rosas, V.; Jaffe, W.; Burtscher, L.; Leftley, J.; Petrov, R.; Lopez,
   B.; Henning, T.; Weigelt, G.; Allouche, F.; Berio, P.; Bettonvil, F.;
   Cruzalebes, P.; Dominik, C.; Heininger, M.; Hogerheijde, M.; Lagarde,
   S.; Lehmitz, M.; Matter, A.; Meilland, A.; Millour, F.; Robbe-Dubois,
   S.; Schertl, D.; van Boekel, R.; Varga, J.; Woillez, J.
2022A&A...663A..35I    Altcode: 2022arXiv220501575I
  Context. Active galactic nuclei play a key role in the evolution of
  galaxies, but their inner workings and physical connection to the host
  are poorly understood due to a lack of angular resolution. Infrared
  interferometry makes it possible to resolve the circumnuclear
  dust in the nearby Seyfert 2 galaxy, the Circinus Galaxy. Previous
  observations have revealed complex structures and polar dust emission
  but interpretation was limited to simple models. The new Multi AperTure
  mid-Infrared Spectro-Scopic Experiment (MATISSE) makes it possible
  to image these structures for the first time. <BR /> Aims: We aim to
  precisely map the morphology and temperature of the dust surrounding
  the supermassive black hole through interferometric imaging. <BR />
  Methods: We observed the Circinus Galaxy with MATISSE at the Very
  Large Telescope Interferometer (VLTI), producing 150 correlated flux
  spectra and 100 closure phase spectra. The novel inclusion of closure
  phases makes interferometric imaging possible for the first time. We
  reconstructed images in the N-band at ∼10 mas resolution. We fit
  blackbody functions with dust extinction to several aperture-extracted
  fluxes from the images to produce a temperature distribution of central
  dusty structures. <BR /> Results: We find significant substructure
  in the circumnuclear dust: central unresolved flux of ∼0.5 Jy,
  a thin disk 1.9 pc in diameter oriented along ∼45°, and a ∼4
  × 1.5 pc polar emission extending orthogonal to the disk. The polar
  emission exhibits patchiness, which we attribute to clumpy dust. Flux
  enhancements to the east and west of the disk are seen for the first
  time. We distinguish the temperature profiles of the disk and of the
  polar emission: the disk shows a steep temperature gradient indicative
  of denser material; the polar profile is flatter, indicating clumpiness
  and/or lower dust density. The unresolved flux is fitted with a high
  temperature, ∼370 K. The polar dust remains warm (∼200 K) out
  to 1.5 pc from the disk. We attribute approximately 60% of the 12
  μm flux to the polar dust, 10% to the disk, and 6% is unresolved;
  the remaining flux was resolved out. The recovered morphology and
  temperature distribution resembles modeling of accretion disks with
  radiation-driven winds at large scales, but we placed new constraints on
  the subparsec dust. <BR /> Conclusions: The spatially resolved subparsec
  features imaged here place new constraints on the physical modeling
  of circumnuclear dust in active galaxies; we show strong evidence that
  the polar emission consists of dust clumps or filaments. The dynamics
  of the structures and their role in the Unified Model remain to be
  explored. <P />This work makes use of ESO Programmes 099.B-0484(A),
  0104.B-0064(A), 0104.B-0127(A), 106.214U.002, and 105.205M.001. <P
  />The images in Fig. 3 are available at the CDS via anonymous ftp to
  <A href="http://cdsarc.u-strasbg.fr/">cdsarc.u-strasbg.fr</A>
  (ftp://130.79.128.5) or via <A
  href="http://cdsarc.u-strasbg.fr/viz-bin/cat/J/A+A/663/A35">http://cdsarc.u-strasbg.fr/viz-bin/cat/J/A+A/663/A35</A>

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Title: The disk of FU Orionis viewed with MATISSE/VLTI. First
    interferometric observations in L and M bands
Authors: Lykou, F.; Ábrahám, P.; Chen, L.; Varga, J.; Kóspál, Á.;
   Matter, A.; Siwak, M.; Szabó, Zs. M.; Zhu, Z.; Liu, H. B.; Lopez, B.;
   Allouche, F.; Augereau, J. -C.; Berio, P.; Cruzalèbes, P.; Dominik,
   C.; Henning, Th.; Hofmann, K. -H.; Hogerheijde, M.; Jaffe, W. J.;
   Kokoulina, E.; Lagarde, S.; Meilland, A.; Millour, F.; Pantin, E.;
   Petrov, R.; Robbe-Dubois, S.; Schertl, D.; Scheuck, M.; van Boekel,
   R.; Waters, L. B. F. M.; Weigelt, G.; Wolf, S.
2022A&A...663A..86L    Altcode: 2022arXiv220510173L
  <BR /> Aims: We studied the accretion disk of the archetypal eruptive
  young star FU Orionis with the use of mid-infrared interferometry,
  which enabled us to resolve the innermost regions of the disk down
  to a spatial resolution of 3 milliarcseconds (mas) in the L band,
  that is, within 1 au of the protostar. <BR /> Methods: We used
  the interferometric instrument MATISSE/VLTI to obtain observations
  of FU Ori's disk in the L, M, and N bands with multiple baseline
  configurations. We also obtained contemporaneous photometry in the
  optical (UBVRIr'i'; SAAO and Konkoly Observatory) and near-infrared
  (JHK<SUB>s</SUB>; NOT). Our results were compared with radiative
  transfer simulations modeled by RADMC-3D. <BR /> Results: The disk of FU
  Orionis is marginally resolved with MATISSE, suggesting that the region
  emitting in the thermal infrared is rather compact. An upper limit
  of ~1.3 ± 0.1 mas (in L) can be given for the diameter of the disk
  region probed in the L band, corresponding to 0.5 au at the adopted
  Gaia EDR3 distance. This represents the hot, gaseous region of the
  accretion disk. The N-band data indicate that the dusty passive disk is
  silicate-rich. Only the innermost region of said dusty disk is found to
  emit strongly in the N band, and it is resolved at an angular size of
  ~5 mas, which translates to a diameter of about 2 au. The observations
  therefore place stringent constraints for the outer radius of the inner
  accretion disk. Dust radiative transfer simulations with RADMC-3D
  provide adequate fits to the spectral energy distribution from the
  optical to the submillimeter and to the interferometric observables when
  opting for an accretion rate M ~ 2 × 10<SUP>−5</SUP> M<SUB>⊙</SUB>
  yr<SUP>−1</SUP> and assuming M<SUB>*</SUB> = 0.6 M<SUB>⊙</SUB>, Most
  importantly, the hot inner accretion disk's outer radius can be fixed at
  0.3 au. The outer radius of the dusty disk is placed at 100 au, based
  on constraints from scattered-light images in the literature. The dust
  mass contained in the disk is 2.4 × 10<SUP>−4</SUP> M<SUB>⊙</SUB>,
  and for a typical gas-to-dust ratio of 100, the total mass in the disk
  is approximately 0.02 M<SUB>⊙</SUB>. We did not find any evidence
  for a nearby companion in the current interferometric data, and we
  tentatively explored the case of disk misalignment. For the latter, our
  modeling results suggest that the disk orientation is similar to that
  found in previous imaging studies by ALMA. Should there be an asymmetry
  in the very compact, inner accretion disk, this might be resolved at
  even smaller spatial scales (≤1 mas). <P />Based on observations
  collected at the European Southern Observatory under ESO programs
  0104.C-0782(B), 0104.C-0016(D), 0106.C-0501(D), and 0106.C-0501(F).

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Title: NICER X-Ray Observations of Eta Carinae during Its Most Recent
    Periastron Passage
Authors: Espinoza-Galeas, David; Corcoran, M. F.; Hamaguchi, K.;
   Russell, C. M. P.; Gull, T. R.; Moffat, A. F. J.; Richardson, N. D.;
   Weigelt, G.; Hillier, D. John; Damineli, Augusto; Stevens, Ian R.;
   Madura, Thomas; Gendreau, K.; Arzoumanian, Z.; Navarete, Felipe
2022ApJ...933..136E    Altcode: 2022arXiv220703457E
  We report high-precision X-ray monitoring observations in the 0.4-10 keV
  band of the luminous, long-period colliding wind binary Eta Carinae,
  up to and through its most recent X-ray minimum/periastron passage in
  2020 February. Eta Carinae reached its observed maximum X-ray flux
  on 2020 January 7, at a flux level of 3.30 ×10<SUP>-10</SUP> ergs
  s<SUP>-1</SUP> cm<SUP>-2</SUP>, followed by a rapid plunge to its
  observed minimum flux, 0.03 × 10<SUP>-10</SUP> ergs s<SUP>-1</SUP>
  cm<SUP>-2</SUP>, near 2020 February 17. The NICER observations show an
  X-ray recovery from the minimum of only ~16 days, the shortest X-ray
  minimum observed so far. We provide new constraints for the "deep"
  and "shallow" minimum intervals. Variations in the characteristic
  X-ray temperatures of the hottest observed X-ray emission indicate
  that the apex of the wind-wind "bow shock" enters the companion's
  wind acceleration zone about 81 days before the start of the X-ray
  minimum. There is a steplike increase in column density just before the
  X-ray minimum, probably associated with the presence of dense clumps
  near the shock apex. During the recovery and after, the column density
  shows a smooth decline, which agrees with previous N <SUB> H </SUB>
  measurements made by Swift at the same orbital phase, indicating that
  the changes in the mass-loss rate are only a few percent over the
  two cycles. Finally, we use the variations in the X-ray flux of the
  outer ejecta seen by NICER to derive a kinetic X-ray luminosity of the
  ejecta of ~10<SUP>41</SUP> ergs s<SUP>-1</SUP> near the time of the
  "Great Eruption."

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Title: VizieR Online Data Catalog: Circinus galaxy N-band VLTI/MATISSE
    images (Isbell+, 2022)
Authors: Isbell, J. W.; Meisenheimer, K.; Pott, J. -U.; Stalevski,
   M.; Tristram, K. R. W.; Sanchez-Bermudez, J.; Hofmann, K. -H.; Gamez
   Rosas, V.; Jaffe, W.; Burtscher, L.; Leftley, J.; Petrov, R.; Lopez,
   B.; Henning, T.; Weigelt, G.; Allouche, F.; Berio, P.; Bettonvil, F.;
   Cruzalebes, P.; Dominik, C.; Heininger, M.; Hogerheijde, M.; Lagarde,
   S.; Lehmitz, M.; Matter, A.; Meilland, A.; Millour, F.; Robbe-Dubois,
   S.; Schertl, D.; van Boekel, R.; Varga, J.; Woillez, J.
2022yCat..36630035I    Altcode:
  Observations of the active galactic nucleus (AGN), Circinus, with
  VLTI/MATISSE resulted in the reconstruction of images at seven
  independent wavelength channels in the N-band. These images show
  the circumnuclear dust and provide new details on constraints on the
  structure commonly known as the AGN torus. The images were reconstructed
  from 150 correlated flux and 100 closure phase measurements obtained in
  March 2020, February 2021, and June 2021. The images were reconstructed
  at 8.5, 8.9, 9.7, 10.5, 11.3, 12.0, and 12.7 micrometers. The images
  are given in Fig. 3 of the paper. <P />(2 data files).

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Title: Competitive X-Ray and Optical Cooling in the Collisionless
    Shocks of WR 140
Authors: Corcoran, Michael; Pollock, Andrew; Stevens, Ian; Russell,
   Christopher; Hamaguchi, Kenji; Williams, Peredur; Moffat, Anthony;
   Weigelt, Gerd; Shenavrin, Victor; Richardson, Noel; Espinoza Galeas,
   David; Drake, Stephen
2022HEAD...1911098C    Altcode:
  WR 140 is a long-period, highly eccentric massive Wolf-Rayet star
  binary system with exceptionally well-determined orbital and stellar
  parameters. Bright, periodically-varying X-ray emission is primarily
  generated in the hot shocked gas produced by the collision of the
  winds of the WC7pd+O5.5fc component stars. We define and discuss the
  X-ray variations in the context of the colliding-wind model using
  time-resolved broad-band X-ray spectrometry from the RXTE, Swift, and
  NICER observatories obtained over 20 years and nearly 1000 observations
  through 3 consecutive 7.94-year orbital cycles including 3 periastron
  passages. The X-ray luminosity varies as expected with the inverse
  of the stellar separation over most of the orbit. Departures near
  periastron from this simple dependence are produced when the shock
  energy balance shifts to excess optical emission in CIII 5696 in
  particular. We use X-ray column density measures in a point-source
  approximation to determine mass-loss-rate estimates for both stars and
  to constrain the overall system morphology. The absorbing-column maximum
  coincides closely with inferior conjunction of the WC star and provides
  evidence of the ion-reflection mechanism that underlie the formation
  of collisionless shocks governed by magnetic fields probably generated
  by the Weibel instability. Comparisons after periastron with K-band
  emission and He I10830 absorption show that both are correlated with
  the asymmetric X-ray absorption. The K-band monitoring shows that dust
  appears within only a few days of periastron passage, suggesting that
  the dust-forming gas is embedded within shocked gas near the stagnation
  point. Comparisons with Eta Carinae show that X-ray flares seen there
  in every orbit have not occurred in WR 140, suggesting the absence
  of large-scale wind inhomogeneities. Soft emission appearing during
  the X-ray minimum is relatively constant and therefore unlikely to be
  produced by recombining plasma entrained in outflowing shocked gas.

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Title: MATISSE, the VLTI mid-infrared imaging spectro-interferometer
Authors: Lopez, B.; Lagarde, S.; Petrov, R. G.; Jaffe, W.; Antonelli,
   P.; Allouche, F.; Berio, P.; Matter, A.; Meilland, A.; Millour,
   F.; Robbe-Dubois, S.; Henning, Th.; Weigelt, G.; Glindemann, A.;
   Agocs, T.; Bailet, Ch.; Beckmann, U.; Bettonvil, F.; van Boekel, R.;
   Bourget, P.; Bresson, Y.; Bristow, P.; Cruzalèbes, P.; Eldswijk,
   E.; Fanteï Caujolle, Y.; González Herrera, J. C.; Graser, U.;
   Guajardo, P.; Heininger, M.; Hofmann, K. -H.; Kroes, G.; Laun, W.;
   Lehmitz, M.; Leinert, C.; Meisenheimer, K.; Morel, S.; Neumann, U.;
   Paladini, C.; Percheron, I.; Riquelme, M.; Schoeller, M.; Stee, Ph.;
   Venema, L.; Woillez, J.; Zins, G.; Ábrahám, P.; Abadie, S.; Abuter,
   R.; Accardo, M.; Adler, T.; Alonso, J.; Augereau, J. -C.; Böhm, A.;
   Bazin, G.; Beltran, J.; Bensberg, A.; Boland, W.; Brast, R.; Burtscher,
   L.; Castillo, R.; Chelli, A.; Cid, C.; Clausse, J. -M.; Connot, C.;
   Conzelmann, R. D.; Danchi, W. -C.; Delbo, M.; Drevon, J.; Dominik,
   C.; van Duin, A.; Ebert, M.; Eisenhauer, F.; Flament, S.; Frahm, R.;
   Gámez Rosas, V.; Gabasch, A.; Gallenne, A.; Garces, E.; Girard, P.;
   Glazenborg, A.; Gonté, F. Y. J.; Guitton, F.; de Haan, M.; Hanenburg,
   H.; Haubois, X.; Hocdé, V.; Hogerheijde, M.; ter Horst, R.; Hron,
   J.; Hummel, C. A.; Hubin, N.; Huerta, R.; Idserda, J.; Isbell, J. W.;
   Ives, D.; Jakob, G.; Jaskó, A.; Jochum, L.; Klarmann, L.; Klein,
   R.; Kragt, J.; Kuindersma, S.; Kokoulina, E.; Labadie, L.; Lacour,
   S.; Leftley, J.; Le Poole, R.; Lizon, J. -L.; Lopez, M.; Lykou, F.;
   Mérand, A.; Marcotto, A.; Mauclert, N.; Maurer, T.; Mehrgan, L. H.;
   Meisner, J.; Meixner, K.; Mellein, M.; Menut, J. L.; Mohr, L.; Mosoni,
   L.; Navarro, R.; Nußbaum, E.; Pallanca, L.; Pantin, E.; Pasquini, L.;
   Phan Duc, T.; Pott, J. -U.; Pozna, E.; Richichi, A.; Ridinger, A.;
   Rigal, F.; Rivinius, Th.; Roelfsema, R.; Rohloff, R. -R.; Rousseau,
   S.; Salabert, D.; Schertl, D.; Schuhler, N.; Schuil, M.; Shabun,
   K.; Soulain, A.; Stephan, C.; Toledo, P.; Tristram, K.; Tromp, N.;
   Vakili, F.; Varga, J.; Vinther, J.; Waters, L. B. F. M.; Wittkowski,
   M.; Wolf, S.; Wrhel, F.; Yoffe, G.
2022A&A...659A.192L    Altcode: 2021arXiv211015556L
  Context. Optical interferometry is at a key development stage. The
  Very Large Telescope Interferometer (VLTI) has established a
  stable, robust infrastructure for long-baseline interferometry
  that is usable by general astronomical observers. The present
  second-generation instruments offer a wide wavelength coverage and
  improved performance. Their sensitivity and measurement accuracy
  lead to data and images of high reliability. <BR /> Aims: We have
  developed the Multi AperTure mid-Infrared SpectroScopic Experiment
  (MATISSE) to access, for the first time, high resolution imaging
  in a wide spectral domain. Many front-line topics are explored with
  this new equipment, including: stellar activity and mass loss; planet
  formation and evolution in the gas and dust disks around young stars;
  and environment interaction and accretion processes around super massive
  black holes in active galactic nuclei. <BR /> Methods: The instrument
  is a spectro-interferometric imager in the transmission windows called
  L, M, and N, from 2.8 to 13.0 microns, combining four optical beams
  from the VLTI's unit or auxiliary telescopes. Its concept, related
  observing procedure, data reduction, and calibration approach, is the
  product of 30 years of instrumental research and has benefitted from
  the expertise developed in the frame of the VLTI's first generation
  instruments. The instrument utilises a multi-axial beam combination
  that delivers spectrally dispersed fringes. The signal provides the
  following quantities at several spectral resolutions: photometric flux,
  coherent fluxes, visibilities, closure phases, wavelength differential
  visibilities and phases, and aperture-synthesis imaging. <BR /> Results:
  This article provides an overview of the physical principle of the
  instrument and its functionalities. The motivation of the choice of the
  instrumental concept and the characteristics of the delivered signal
  are detailed with a description of the observing modes and of their
  performance limit. MATISSE offers four spectral resolutions in L&amp;M
  bands, namely 30, 500, 1000 and 3400, and 30 and 220 in the N band,
  and it provides an angular resolution down to 3 mas for the shortest
  wavelengths. The MATISSE stand-alone sensitivity limits are 60 mJy in
  L and 300 mJy in N. The paper gives details of the sensitivity limits
  for the different measurables and their related precision criteria,
  considering telescope configurations and spectral resolutions. We
  also discuss the gain provided with the GRA4MAT fringe tracker. An
  ensemble of data and reconstructed images illustrate the first
  acquired key observations. <BR /> Conclusions: The instrument has
  been in operation at Cerro Paranal, ESO, Chile, since 2018, and has
  been open for science use by the international community since April
  2019. The first scientific results are being published now.

---------------------------------------------------------
Title: Improving the diameters of interferometric calibrators
    with MATISSE
Authors: Robbe-Dubois, S.; Cruzalèbes, P.; Berio, Ph; Meilland, A.;
   Petrov, R. -G.; Allouche, F.; Salabert, D.; Paladini, C.; Matter,
   A.; Millour, F.; Lagarde, S.; Lopez, B.; Burtscher, L.; Jaffe, W.;
   Hron, J.; Percheron, I.; van Boekel, R.; Weigelt, G.; Stee, Ph
2022MNRAS.510...82R    Altcode: 2021MNRAS.tmp.3025R; 2022arXiv220100747R
  A good knowledge of the angular diameters of stars used to calibrate the
  observables in stellar interferometry is fundamental. As the available
  precision for giant stars is worse than the required per cent level, we
  aim to improve the knowledge of many diameters using MATISSE (Multiple
  AperTure mid-Infrared SpectroScopic Experiment) data in its different
  instrumental configurations. Using the squared visibility MATISSE
  observable, we compute the angular diameter value, which ensures the
  best-fitting curves, assuming an intensity distribution of a uniform
  disc. We take into account that the transfer function varies over the
  wavelength and is different from one instrumental configuration to
  another. The uncertainties on the diameters are estimated using the
  residual bootstrap method. Using the low spectral resolution mode in
  the Lband, we observed a set of 35 potential calibrators selected in
  the Mid-infrared stellar Diameter and Flux Compilation Catalogue with
  diameters ranging from about 1 to 3 mas. We reach a precision on the
  diameter estimates in the range 0.6 per cent to 4.1 per cent. The study
  of the stability of the transfer function in visibility over two nights
  makes us confident in our results. In addition, we identify one star,
  75 Vir initially present in the calibrator lists, for which our method
  does not converge, and prove to be a binary star. This leads us to
  the conclusion that our method is actually necessary to improve the
  quality of the astrophysical results obtained with MATISSE, and that
  it can be used as a useful tool for 'bad calibrator' detection.

---------------------------------------------------------
Title: Thermal imaging of dust hiding the black hole in NGC 1068
Authors: Gámez Rosas, Violeta; Isbell, Jacob W.; Jaffe, Walter;
   Petrov, Romain G.; Leftley, James H.; Hofmann, Karl-Heinz; Millour,
   Florentin; Burtscher, Leonard; Meisenheimer, Klaus; Meilland, Anthony;
   Waters, Laurens B. F. M.; Lopez, Bruno; Lagarde, Stéphane; Weigelt,
   Gerd; Berio, Philippe; Allouche, Fatme; Robbe-Dubois, Sylvie;
   Cruzalèbes, Pierre; Bettonvil, Felix; Henning, Thomas; Augereau,
   Jean-Charles; Antonelli, Pierre; Beckmann, Udo; van Boekel, Roy;
   Bendjoya, Philippe; Danchi, William C.; Dominik, Carsten; Drevon,
   Julien; Gallimore, Jack F.; Graser, Uwe; Heininger, Matthias;
   Hocdé, Vincent; Hogerheijde, Michiel; Hron, Josef; Impellizzeri,
   Caterina M. V.; Klarmann, Lucia; Kokoulina, Elena; Labadie, Lucas;
   Lehmitz, Michael; Matter, Alexis; Paladini, Claudia; Pantin, Eric;
   Pott, Jörg-Uwe; Schertl, Dieter; Soulain, Anthony; Stee, Philippe;
   Tristram, Konrad; Varga, Jozsef; Woillez, Julien; Wolf, Sebastian;
   Yoffe, Gideon; Zins, Gerard
2022Natur.602..403G    Altcode: 2021arXiv211213694G
  In the widely accepted `unified model'<SUP>1</SUP> solution of the
  classification puzzle of active galactic nuclei, the orientation of a
  dusty accretion torus around the central black hole dominates their
  appearance. In `type-1' systems, the bright nucleus is visible at
  the centre of a face-on torus. In `type-2' systems the thick, nearly
  edge-on torus hides the central engine. Later studies suggested
  evolutionary effects<SUP>2</SUP> and added dusty clumps and polar
  winds<SUP>3</SUP> but left the basic picture intact. However, recent
  high-resolution images<SUP>4</SUP> of the archetypal type-2 galaxy
  NGC 1068<SUP>5,6</SUP>, suggested a more radical revision. The images
  displayed a ring-like emission feature that was proposed to be hot dust
  surrounding the black hole at the radius where the radiation from the
  central engine evaporates the dust. That ring is too thin and too far
  tilted from edge-on to hide the central engine, and ad hoc foreground
  extinction is needed to explain the type-2 classification. These images
  quickly generated reinterpretations of the dichotomy between types 1
  and 2<SUP>7,8</SUP>. Here we present new multi-band mid-infrared images
  of NGC 1068 that detail the dust temperature distribution and reaffirm
  the original model. Combined with radio data (J.F.G. and C.M.V.I.,
  manuscript in preparation), our maps locate the central engine that
  is below the previously reported ring and obscured by a thick, nearly
  edge-on disk, as predicted by the unified model. We also identify
  emission from polar flows and absorbing dust that is mineralogically
  distinct from that towards the Milky Way centre.

---------------------------------------------------------
Title: The extended atmosphere and circumstellar environment of the
    cool evolved star VX Sagittarii as seen by MATISSE
Authors: Chiavassa, A.; Kravchenko, K.; Montargès, M.; Millour, F.;
   Matter, A.; Freytag, B.; Wittkowski, M.; Hocdé, V.; Cruzalèbes, P.;
   Allouche, F.; Lopez, B.; Lagarde, S.; Petrov, R. G.; Meilland, A.;
   Robbe-Dubois, S.; Hofmann, K. -H.; Weigelt, G.; Berio, P.; Bendjoya,
   P.; Bettonvil, F.; Domiciano de Souza, A.; Heininger, M.; Henning, Th.;
   Isbell, J. W.; Jaffe, W.; Labadie, L.; Lehmitz, M.; Meisenheimer, K.;
   Soulain, A.; Varga, J.; Augereau, J. -C.; van Boekel, R.; Burtscher,
   L.; Danchi, W. C.; Dominik, C.; Drevon, J.; Gámez Rosas, V.;
   Hogerheijde, M. R.; Hron, J.; Klarmann, L.; Kokoulina, E.; Lagadec,
   E.; Leftley, J.; Mosoni, L.; Nardetto, N.; Paladini, C.; Pantin, E.;
   Schertl, D.; Stee, P.; Szabados, L.; Waters, R.; Wolf, S.; Yoffe, G.
2022A&A...658A.185C    Altcode: 2021arXiv211210695C
  Context. VX Sgr is a cool, evolved, and luminous red star whose
  stellar parameters are difficult to determine, which affects
  its classification. <BR /> Aims: We aim to spatially resolve the
  photospheric extent as well as the circumstellar environment. <BR
  /> Methods: We used interferometric observations obtained with
  the MATISSE instrument in the L (3-4 μm), M (4.5-5 μm), and N
  (8-13 μm) bands. We reconstructed monochromatic images using
  the MIRA software. We used 3D radiation-hydrodynamics simulations
  carried out with CO<SUP>5</SUP>BOLD and a uniform disc model to
  estimate the apparent diameter and interpret the stellar surface
  structures. Moreover, we employed the radiative transfer codes OPTIM3D
  and RADMC3D to compute the spectral energy distribution for the L,
  M, and N bands, respectively. <BR /> Results: MATISSE observations
  unveil, for the first time, the morphology of VX Sgr across the L, M,
  and N bands. The reconstructed images show a complex morphology with
  brighter areas whose characteristics depend on the wavelength probed. We
  measured the angular diameter as a function of the wavelength and
  showed that the photospheric extent in the L and M bands depends on the
  opacity through the atmosphere. In addition to this, we also concluded
  that the observed photospheric inhomogeneities can be interpreted
  as convection-related surface structures. The comparison in the N
  band yielded a qualitative agreement between the N-band spectrum
  and simple dust radiative transfer simulations. However, it is not
  possible to firmly conclude on the interpretation of the current
  data because of the difficulty in constraing the model parameters
  using the limited accuracy of our absolute flux calibration. <BR />
  Conclusions: MATISSE observations and the derived reconstructed images
  unveil the appearance of VX Sgr's stellar surface and circumstellar
  environment across a very large spectral domain for the first time. <P
  />Based on the observations made with VLTI-ESO Paranal, Chile under
  the programme IDs 0103.D-0153(D, E, G). The data are available at <A
  href="http://oidb.jmmc.fr/index.html">oidb.jmmc.fr</A>

---------------------------------------------------------
Title: VLTI-MATISSE L- and N-band aperture-synthesis imaging of the
    unclassified B[e] star FS Canis Majoris
Authors: Hofmann, K. -H.; Bensberg, A.; Schertl, D.; Weigelt, G.;
   Wolf, S.; Meilland, A.; Millour, F.; Waters, L. B. F. M.; Kraus,
   S.; Ohnaka, K.; Lopez, B.; Petrov, R. G.; Lagarde, S.; Berio, Ph.;
   Allouche, F.; Robbe-Dubois, S.; Jaffe, W.; Henning, Th.; Paladini, C.;
   Schöller, M.; Mérand, A.; Glindemann, A.; Beckmann, U.; Heininger,
   M.; Bettonvil, F.; Zins, G.; Woillez, J.; Bristow, P.; Stee, P.;
   Vakili, F.; van Boekel, R.; Hogerheijde, M. R.; Dominik, C.; Augereau,
   J. -C.; Matter, A.; Hron, J.; Pantin, E.; Rivinius, Th.; de Wit,
   W. -J.; Varga, J.; Klarmann, L.; Meisenheimer, K.; Gámez Rosas,
   V.; Burtscher, L.; Leftley, J.; Isbell, J. W.; Yoffe, G.; Kokoulina,
   E.; Danchi, W. C.; Cruzalèbes, P.; Domiciano de Souza, A.; Drevon,
   J.; Hocdé, V.; Kreplin, A.; Labadie, L.; Connot, C.; Nußbaum, E.;
   Lehmitz, M.; Antonelli, P.; Graser, U.; Leinert, C.
2022A&A...658A..81H    Altcode: 2021arXiv211112458H
  Context. FS Canis Majoris (FS CMa, HD 45677) is an unclassified B[e]
  star surrounded by an inclined dust disk. The evolutionary stage of
  FS CMa is still debated. Perpendicular to the circumstellar disk,
  a bipolar outflow was detected. Infrared aperture-synthesis imaging
  provides us with a unique opportunity to study the disk structure. <BR
  /> Aims: Our aim is to study the intensity distribution of the
  disk of FS CMa in the mid-infrared L and N bands. <BR /> Methods:
  We performed aperture-synthesis imaging of FS CMa with the MATISSE
  instrument (Multi AperTure mid-Infrared SpectroScopic Experiment)
  in the low spectral resolution mode to obtain images in the L and N
  bands. We computed radiative transfer models that reproduce the L-
  and N-band intensity distributions of the resolved disks. <BR />
  Results: We present L- and N-band aperture-synthesis images of FS CMa
  reconstructed in the wavelength bands of 3.4-3.8 and 8.6-9.0 μm. In
  the L-band image, the inner rim region of an inclined circumstellar
  disk and the central object can be seen with a spatial resolution of
  2.7 milliarcsec (mas). An inner disk cavity with an angular diameter
  of ~6 × 12 mas is resolved. The L-band disk consists of a bright
  northwestern (NW) disk region and a much fainter southeastern (SE)
  region. The images suggest that we are looking at the bright inner
  wall of the NW disk rim, which is on the far side of the disk. In the N
  band, only the bright NW disk region is seen. In addition to deriving
  the inclination and the inner disk radius, fitting the reconstructed
  brightness distributions via radiative transfer modelling allows one
  to constrain the innermost disk structure, in particular the shape of
  theinner disk rim. <P />Based on observations collected at the European
  Organisation for Astronomical Research in the Southern Hemisphere within
  the commissioning of the VLTI-MATISSE instrument (ID 60.A-9257(E)).

---------------------------------------------------------
Title: Eta Carinae: A Tale of Two Periastron Passages
Authors: Gull, Theodore R.; Navarete, Felipe; Corcoran, Michael F.;
   Damineli, Augusto; Espinoza, David; Hamaguchi, Kenji; Hartman, Henrik;
   Hillier, D. John; Madura, Thomas; Moffat, Anthony F. J.; Morris,
   Patrick; Nielsen, Krister; Pittard, Julian M.; Pollock, Andrew M. T.;
   Richardson, Noel D.; Russell, Christopher M. P.; Stevens, Ian R.;
   Weigelt, Gerd
2021ApJ...923..102G    Altcode:
  Since 2002, the far-ultraviolet (FUV) flux (1150-1680 Å) of Eta
  Carinae, monitored by the Hubble Space Telescope/Space Telescope
  Imaging Spectrograph, has increased by an order of magnitude. This
  increase is attributed to partial dissipation of a line-of-sight
  (LOS) occulter that blocks the central core of the system. Across
  the 2020 February periastron passage, changes in the FUV emission
  show a stronger wavelength dependence than occurred across the 2003
  July periastron passage. Across both periastron passages, most of the
  FUV spectrum dropped in flux then recovered a few months later. The
  2020 periastron passage included enhancements of FUV flux in narrow
  spectral intervals near periastron followed by a transient absorption
  and recovery to pre-periastron flux levels. The drop in flux is due
  to increased absorption by singly ionized species as the secondary
  star plunges deep into the wind of the primary star, which blocks the
  companion's ionizing radiation. The enhanced FUV emission is caused by
  the companion's wind-blown cavity briefly opening a window to deeper
  layers of the primary star. This is the first time transient brightening
  has been seen in the FUV comparable to transients previously seen at
  longer wavelengths. Changes in resonance line-velocity profiles hint
  that the dissipating occulter is associated with material in LOS moving
  at -100 to -300 km s<SUP>-1</SUP>, similar in velocity of structures
  previously associated with the 1890s lesser eruption.

---------------------------------------------------------
Title: Competitive X-Ray and Optical Cooling in the Collisionless
    Shocks of WR 140
Authors: Pollock, A. M. T.; Corcoran, M. F.; Stevens, I. R.; Russell,
   C. M. P.; Hamaguchi, K.; Williams, P. M.; Moffat, A. F. J.; Weigelt,
   G.; Shenavrin, V.; Richardson, N. D.; Espinoza, D.; Drake, S. A.
2021ApJ...923..191P    Altcode: 2021arXiv210910350P
  The long-period, highly eccentric Wolf-Rayet star binary system
  WR 140 has exceptionally well-determined orbital and stellar
  parameters. Bright, variable X-ray emission is generated in
  shocks produced by the collision of the winds of the WC7pd+O5.5fc
  component stars. We discuss the variations in the context of the
  colliding-wind model using broadband spectrometry from the RXTE,
  Swift, and NICER observatories obtained over 20 yr and nearly 1000
  observations through three consecutive 7.94 yr orbits, including
  three periastron passages. The X-ray luminosity varies as expected
  with the inverse of the stellar separation over most of the orbit;
  departures near periastron are produced when cooling shifts to
  excess optical emission in C III λ5696 in particular. We use
  X-ray absorption to estimate mass-loss rates for both stars and to
  constrain the system morphology. The absorption maximum coincides
  closely with the inferior conjunction of the WC star and provides
  evidence of the ion-reflection mechanism that underlies the formation
  of collisionless shocks governed by magnetic fields probably generated
  by the Weibel instability. Comparisons with K-band emission and He
  I λ10830 absorption show that both are correlated after periastron
  with the asymmetric X-ray absorption. Dust appears within a few days of
  periastron, suggesting formation within shocked gas near the stagnation
  point. The X-ray flares seen in η Car have not occurred in WR 140,
  suggesting the absence of large-scale wind inhomogeneities. Relatively
  constant soft emission revealed during the X-ray minimum is probably
  not from recombining plasma entrained in outflowing shocked gas.

---------------------------------------------------------
Title: First MATISSE L-band observations of HD 179218. Is the inner
    10 au region rich in carbon dust particles?
Authors: Kokoulina, E.; Matter, A.; Lopez, B.; Pantin, E.; Ysard, N.;
   Weigelt, G.; Habart, E.; Varga, J.; Jones, A.; Meilland, A.; Dartois,
   E.; Klarmann, L.; Augereau, J. -C.; van Boekel, R.; Hogerheijde, M.;
   Yoffe, G.; Waters, L. B. F. M.; Dominik, C.; Jaffe, W.; Millour, F.;
   Henning, Th.; Hofmann, K. -H.; Schertl, D.; Lagarde, S.; Petrov,
   R. G.; Antonelli, P.; Allouche, F.; Berio, P.; Robbe-Dubois, S.;
   Ábraham, P.; Beckmann, U.; Bensberg, A.; Bettonvil, F.; Bristow, P.;
   Cruzalèbes, P.; Danchi, W. C.; Dannhoff, M.; Graser, U.; Heininger,
   M.; Labadie, L.; Lehmitz, M.; Leinert, C.; Meisenheimer, K.; Paladini,
   C.; Percheron, I.; Stee, Ph.; Woillez, J.; Wolf, S.; Zins, G.; Delbo,
   M.; Drevon, J.; Duprat, J.; Gámez Rosas, V.; Hocdé, V.; Hron, J.;
   Hummel, C. A.; Isbell, J. W.; Leftley, J.; Soulain, A.; Vakili, F.;
   Wittkowski, M.
2021A&A...652A..61K    Altcode: 2021arXiv210612947K
  Context. Carbon is one of the most abundant components in the
  Universe. While silicates have been the main focus of solid phase
  studies in protoplanetary discs (PPDs), little is known about the
  solid carbon content especially in the planet-forming regions (~0.1-10
  au). Fortunately, several refractory carbonaceous species present C-H
  bonds (such as hydrogenated nano-diamond and amorphous carbon as well
  as polycyclic aromatic hydrocarbons), which generate infrared (IR)
  features that can be used to trace the solid carbon reservoirs. The
  new mid-IR instrument MATISSE, installed at the Very Large Telescope
  Interferometer (VLTI), can spatially resolve the inner regions (~1-10
  au) of PPDs and locate, down to the au-scale, the emission coming
  from carbon grains. <BR /> Aims: Our aim is to provide a consistent
  view on the radial structure, down to the au-scale, as well as basic
  physical properties and the nature of the material responsible for the
  IR continuum emission in the inner disk region around HD 179218. <BR
  /> Methods: We implemented a temperature-gradient model to interpret
  the disk IR continuum emission, based on a multiwavelength dataset
  comprising a broadband spectral energy distribution and VLTI H-, L-, and
  N-bands interferometric data obtained in low spectral resolution. Then,
  we added a ring-like component, representing the carbonaceous L-band
  features-emitting region, to assess its detectability in future higher
  spectral resolution observations employing mid-IR interferometry. <BR />
  Results: Our temperature-gradient model can consistently reproduce our
  dataset. We confirmed a spatially extended inner 10 au emission in H-
  and L-bands, with a homogeneously high temperature (~1700 K), which we
  associate with the presence of stochastically heated nano-grains. On the
  other hand, the N-band emitting region presents a ring-like geometry
  that starts at about 10 au with a temperature of 400 K. Moreover, the
  existing low resolution MATISSE data exclude the presence of aromatic
  carbon grains (i.e., producing the 3.3 μm feature) in close proximity
  tothe star (≲1 au). Future medium spectral resolution MATISSE data
  will confirm their presence at larger distances. <BR /> Conclusions:
  Our best-fit model demonstrates the presence of two separated dust
  populations: nano-grains that dominate the near- to mid-IR emission
  in the inner 10 au region and larger grains that dominate the emission
  outward. The presence of such nano-grains in the highly irradiated inner
  10 au region of HD 179218 requires a replenishment process. Considering
  the expected lifetime of carbon nano-grains from The Heterogeneous dust
  Evolution Model for Interstellar Solids (THEMIS model), the estimated
  disk accretion inflow of HD 179218 could significantly contribute to
  feed the inner 10 au region in nano-grains.Moreover, we also expect a
  local regeneration of those nano-grains by the photo-fragmentation of
  larger aggregates. <P />Based on observations collected at the European
  Southern Observatory, Chile (ESO ID: 0103.D-0069).

---------------------------------------------------------
Title: VLTI-MATISSE chromatic aperture-synthesis imaging of η
    Carinae's stellar wind across the Brα line. Periastron passage
    observations in February 2020
Authors: Weigelt, G.; Hofmann, K. -H.; Schertl, D.; Lopez, B.;
   Petrov, R. G.; Lagarde, S.; Berio, Ph.; Jaffe, W.; Henning, Th.;
   Millour, F.; Meilland, A.; Allouche, F.; Robbe-Dubois, S.; Matter,
   A.; Cruzalèbes, P.; Hillier, D. J.; Russell, C. M. P.; Madura, T.;
   Gull, T. R.; Corcoran, M. F.; Damineli, A.; Moffat, A. F. J.; Morris,
   P. W.; Richardson, N. D.; Paladini, C.; Schöller, M.; Mérand, A.;
   Glindemann, A.; Beckmann, U.; Heininger, M.; Bettonvil, F.; Zins, G.;
   Woillez, J.; Bristow, P.; Sanchez-Bermudez, J.; Ohnaka, K.; Kraus,
   S.; Mehner, A.; Wittkowski, M.; Hummel, C. A.; Stee, P.; Vakili, F.;
   Hartman, H.; Navarete, F.; Hamaguchi, K.; Espinoza-Galeas, D. A.;
   Stevens, I. R.; van Boekel, R.; Wolf, S.; Hogerheijde, M. R.; Dominik,
   C.; Augereau, J. -C.; Pantin, E.; Waters, L. B. F. M.; Meisenheimer,
   K.; Varga, J.; Klarmann, L.; Gámez Rosas, V.; Burtscher, L.; Leftley,
   J.; Isbell, J. W.; Hocdé, V.; Yoffe, G.; Kokoulina, E.; Hron, J.;
   Groh, J.; Kreplin, A.; Rivinius, Th.; de Wit, W. -J.; Danchi, W. -C.;
   Domiciano de Souza, A.; Drevon, J.; Labadie, L.; Connot, C.; Nußbaum,
   E.; Lehmitz, M.; Antonelli, P.; Graser, U.; Leinert, C.
2021A&A...652A.140W    Altcode:
  Context. Eta Carinae is a highly eccentric, massive binary
  system (semimajor axis ~15.5 au) with powerful stellar winds and
  a phase-dependent wind-wind collision (WWC) zone. The primary
  star, η Car A, is a luminous blue variable (LBV); the secondary,
  η Car B, is a Wolf-Rayet or O star with a faster but less dense
  wind. Aperture-synthesis imaging allows us to study the mass loss from
  the enigmatic LBV η Car. Understanding LBVs is a crucial step toward
  improving our knowledge about massive stars and their evolution. <BR />
  Aims: Our aim is to study the intensity distribution and kinematics of
  η Car's WWC zone. <BR /> Methods: Using the VLTI-MATISSE mid-infrared
  interferometry instrument, we perform Brα imaging of η Car's
  distorted wind. <BR /> Results: We present the first VLTI-MATISSE
  aperture-synthesis images of η Car A's stellar windin several spectral
  channels distributed across the Brα 4.052 μm line (spectral resolving
  power R ~ 960). Our observations were performed close to periastron
  passage in February 2020 (orbital phase ~ 14.0022). The reconstructed
  iso-velocity images show the dependence of the primary stellar
  wind on wavelength or line-of-sight (LOS) velocity with a spatial
  resolution of 6 mas (~14 au). The radius of the faintest outer wind
  regions is ~26 mas (~60 au). At several negative LOS velocities, the
  primary stellar wind is less extended to the northwest than in other
  directions. This asymmetry is most likely caused by the WWC. Therefore,
  we see both the velocity field of the undisturbed primary wind and the
  WWC cavity. In continuum spectral channels, the primary star wind is
  more compact than in line channels. A fit of the observed continuum
  visibilities with the visibilities of a stellar wind CMFGEN model
  (CMFGEN is an atmosphere code developed to model the spectra of a
  variety of objects) provides a full width at half maximum fit diameter
  of the primary stellar wind of 2.84 ± 0.06 mas (6.54 ± 0.14 au). We
  comparethe derived intensity distributions with the CMFGEN stellar
  wind model and hydrodynamic WWC models. <P />Based on observations
  collected at the European Organisation for Astronomical Research in
  the Southern Hemisphere under ESO program 0104.D-0015A, 0104.D-0015B,
  0104.D-0015C, 0106.D-0309(A), 0106.D-0309(B), and 0106.D-0309(C).

---------------------------------------------------------
Title: The orbit and stellar masses of the archetype colliding-wind
    binary WR 140
Authors: Thomas, Joshua D.; Richardson, Noel D.; Eldridge, J. J.;
   Schaefer, Gail H.; Monnier, John D.; Sana, Hugues; Moffat, Anthony
   F. J.; Williams, Peredur; Corcoran, Michael F.; Stevens, Ian R.;
   Weigelt, Gerd; Zainol, Farrah D.; Anugu, Narsireddy; Le Bouquin,
   Jean-Baptiste; ten Brummelaar, Theo; Campos, Fran; Couperus, Andrew;
   Davies, Claire L.; Ennis, Jacob; Eversberg, Thomas; Garde, Oliver;
   Gardner, Tyler; Fló, Joan Guarro; Kraus, Stefan; Labdon, Aaron;
   Lanthermann, Cyprien; Leadbeater, Robin; Lester, T.; Maki, Courtney;
   McBride, Brendan; Ozuyar, Dogus; Ribeiro, J.; Setterholm, Benjamin;
   Stober, Berthold; Wood, Mackenna; Zurmühl, Uwe
2021MNRAS.504.5221T    Altcode: 2021MNRAS.tmp.1194T; 2021arXiv210110563T
  We present updated orbital elements for the Wolf-Rayet (WR) binary
  WR 140 (HD 193793; WC7pd + O5.5fc). The new orbital elements were
  derived using previously published measurements along with 160 new
  radial velocity measurements across the 2016 periastron passage of
  WR 140. Additionally, four new measurements of the orbital astrometry
  were collected with the CHARA Array. With these measurements, we derive
  stellar masses of $M_{\rm WR} = 10.31\pm 0.45 \, \mathrm{M}_\odot$ and
  $M_{\rm O} = 29.27\pm 1.14 \, \mathrm{M}_{\odot }$. We also include a
  discussion of the evolutionary history of this system from the Binary
  Population and Spectral Synthesis model grid to show that this WR
  star likely formed primarily through mass-loss in the stellar winds,
  with only a moderate amount of mass lost or transferred through binary
  interactions.

---------------------------------------------------------
Title: Spectroscopic signatures of the vanishing natural coronagraph
    of Eta Carinae
Authors: Damineli, A.; Navarete, F.; Hillier, D. J.; Moffat, A. F. J.;
   Corcoran, M. F.; Gull, T. R.; Richardson, N. D.; Weigelt, G.; Morris,
   P. W.; Stevens, I.
2021MNRAS.505..963D    Altcode: 2021MNRAS.tmp.1370D; 2021arXiv210500590D
  Eta Carinae is a massive interacting binary system shrouded in a complex
  circumstellar environment whose evolution is the source of the long-term
  brightening observed during the last 80 yr. An occulter, acting as a
  natural coronagraph, impacts observations from our perspective, but
  not from most other directions. Other sight-lines are visible to us
  through studies of the Homunculus reflection nebula. The coronagraph
  appears to be vanishing, decreasing the extinction towards the central
  star, and causing the star's secular brightening. In contrast, the
  Homunculus remains at an almost constant brightness. The coronagraph
  primarily suppresses the stellar continuum, to a lesser extent the wind
  lines, and not the circumstellar emission lines. This explains why the
  absolute values of equivalent widths (EWs) of the emission lines in our
  direct view are larger than those seen in reflected by the Homunculus,
  why the direct view absolute EWs are decreasing with time, and why
  lower-excitation spectral wind lines formed at larger radii (e.g Fe II
  4585 Å) decrease in intensity at a faster pace than higher excitation
  lines that form closer to the star (e.g. H δ). Our main result is
  that the star, despite its 10-fold brightening over two decades, is
  relatively stable. A vanishing coronagraph that can explain both the
  large flux evolution and the much weaker spectral evolution. This is
  contrary to suggestions that the long-term variability is intrinsic
  to the primary star that is still recovering from the Great Eruption
  with a decreasing mass-loss rate and a polar wind that is evolving at
  a slower pace than at the equator.

---------------------------------------------------------
Title: Mid-infrared circumstellar emission of the long-period Cepheid
    ℓ Carinae resolved with VLTI/MATISSE
Authors: Hocdé, V.; Nardetto, N.; Matter, A.; Lagadec, E.; Mérand,
   A.; Cruzalèbes, P.; Meilland, A.; Millour, F.; Lopez, B.; Berio,
   P.; Weigelt, G.; Petrov, R.; Isbell, J. W.; Jaffe, W.; Kervella, P.;
   Glindemann, A.; Schöller, M.; Allouche, F.; Gallenne, A.; Domiciano
   de Souza, A.; Niccolini, G.; Kokoulina, E.; Varga, J.; Lagarde, S.;
   Augereau, J. -C.; van Boekel, R.; Bristow, P.; Henning, Th.; Hofmann,
   K. -H.; Zins, G.; Danchi, W. -C.; Delbo, M.; Dominik, C.; Gámez
   Rosas, V.; Klarmann, L.; Hron, J.; Hogerheijde, M. R.; Meisenheimer,
   K.; Pantin, E.; Paladini, C.; Robbe-Dubois, S.; Schertl, D.; Stee,
   P.; Waters, R.; Lehmitz, M.; Bettonvil, F.; Heininger, M.; Bristow,
   P.; Woillez, J.; Wolf, S.; Yoffe, G.; Szabados, L.; Chiavassa, A.;
   Borgniet, S.; Breuval, L.; Javanmardi, B.; Ábrahám, P.; Abadie, S.;
   Abuter, R.; Accardo, M.; Adler, T.; Agócs, T.; Alonso, J.; Antonelli,
   P.; Böhm, A.; Bailet, C.; Bazin, G.; Beckmann, U.; Beltran, J.;
   Boland, W.; Bourget, P.; Brast, R.; Bresson, Y.; Burtscher, L.;
   Buter, R.; Castillo, R.; Chelli, A.; Cid, C.; Clausse, J. -M.; Connot,
   C.; Conzelmann, R. D.; De Haan, M.; Ebert, M.; Elswijk, E.; Fantei,
   Y.; Frahm, R.; Gámez Rosas, V.; Gabasch, A.; Garces, E.; Girard,
   P.; Glazenborg, A.; Gonté, F. Y. J.; González Herrera, J. C.;
   Graser, U.; Guajardo, P.; Guitton, F.; Hanenburg, H.; Haubois, X.;
   Hubin, N.; Huerta, R.; Idserda, J.; Ives, D.; Jakob, G.; Jaskó,
   A.; Jochum, L.; Klein, R.; Kragt, J.; Kroes, G.; Kuindersma, S.;
   Labadie, L.; Laun, W.; Le Poole, R.; Leinert, C.; Lizon, J. -L.;
   Lopez, M.; Marcotto, A.; Mauclert, N.; Maurer, T.; Mehrgan, L. H.;
   Meisner, J.; Meixner, K.; Mellein, M.; Mohr, L.; Morel, S.; Mosoni,
   L.; Navarro, R.; Neumann, U.; Nußbaum, E.; Pallanca, L.; Pasquini,
   L.; Percheron, I.; Phan Duc, T.; Pott, J. -U.; Pozna, E.; Ridinger,
   A.; Rigal, F.; Riquelme, M.; Rivinius, Th.; Roelfsema, R.; Rohloff,
   R. -R.; Rousseau, S.; Schuhler, N.; Schuil, M.; Shabun, K.; Soulain,
   A.; Stephan, C.; ter Horst, R.; Tromp, N.; Vakili, F.; van Duin, A.;
   Venema, L. B.; Vinther, J.; Wittkowski, M.; Wrhel, F.
2021A&A...651A..92H    Altcode: 2021arXiv210317014H
  Context. The nature of circumstellar envelopes (CSEs) around Cepheids
  is a matter of ongoing debate. The physical origin of their infrared
  (IR) excess could be shown to either be made up of a shell of ionized
  gas, a dust envelope, or a combination of both. <BR /> Aims: This
  study is aimed at constraining the geometry and the IR excess of the
  environment of the bright long-period Cepheid ℓ Car (P = 35.5 days)
  at mid-IR wavelengths in order to understand its physical nature. <BR
  /> Methods: We first used photometric observations in various bands
  (from the visible domain to the infrared) and Spitzer Space Telescope
  spectroscopy to constrain the IR excess of ℓ Car. Then we analyzed
  the VLTI/MATISSE measurements at a specific phase of observation
  in order to determine the flux contribution as well as the size and
  shape of the environment of the star in the L band. Finally, we tested
  the hypothesis of a shell of ionized gas in order to model the IR
  excess. <BR /> Results: We report the first detection in the L band
  of a centro-symmetric extended emission around ℓ Car, of about 1.7
  R<SUB>⋆</SUB> in full width at half maximum, producing an excess of
  about 7.0% in this band.This latter value is used to calibrate the IR
  excess found when comparing the photometric observations in various
  bands and quasi-static atmosphere models. In the N band, there is no
  clear evidence for dust emission from VLTI/MATISSE correlated flux
  and Spitzer data. On the other side, the modeled shell of ionized
  gas implies a more compact CSE (1.13 ± 0.02 R<SUB>⋆</SUB>) that
  is also fainter (IR excess of 1% in the L band). <BR /> Conclusions:
  We provide new evidence supporting a compact CSE for ℓ Car and we
  demonstrate the capabilities of VLTI/MATISSE for determining common
  properties of CSEs. While the compact CSE of ℓ Car is likely to be
  of a gaseous nature, the tested model of a shell of ionized gas is not
  able to simultaneously reproduce the IR excess and the interferometric
  observations. Further Galactic Cepheid observations with VLTI/MATISSE
  are necessary for determining the properties of CSEs, which may also
  depend on both the pulsation period and the evolutionary state of the
  stars. <P />Based on observations made with ESO telescopes at Paranal
  observatory under program ID 0104.D-0554(A).

---------------------------------------------------------
Title: Conditions in the WR 140 wind-collision region revealed by
    the 1.083-μ m He I line profile
Authors: Williams, Peredur M.; Varricatt, Watson P.; Chené,
   André-Nicolas; Corcoran, Michael F.; Gull, Ted R.; Hamaguchi, Kenji;
   Moffat, Anthony F. J.; Pollock, Andrew M. T.; Richardson, Noel D.;
   Russell, Christopher M. P.; Sander, Andreas A. C.; Stevens, Ian R.;
   Weigelt, Gerd
2021MNRAS.503..643W    Altcode: 2021MNRAS.tmp..528W; 2021arXiv210209445W
  We present spectroscopy of the P Cygni profile of the 1.083-$\mu$m
  He I line in the WC7+O5 colliding-wind binary (CWB) WR 140 (HD
  193793), observed in 2008, before its periastron passage in 2009,
  and in 2016-2017, spanning the subsequent periastron passage. Both
  absorption and emission components showed strong variations. The
  variation of the absorption component as the O5 star was occulted
  by the wind-collision region (WCR) sets a tight constraint on its
  geometry. While the sightline to the O5 star traversed the WCR, the
  strength and breadth of the absorption component varied significantly
  on time-scales of days. An emission subpeak was observed on all our
  profiles. The variation of its radial velocity with orbital phase was
  shown to be consistent with formation in the WCR as it swung round
  the stars in their orbit. Modelling the profile gives a measure
  of the extent of the subpeak-forming region. In the phase range
  0.93-0.99, the flux in the subpeak increased steadily, approximately
  inversely proportionally to the stellar separation, indicating that the
  shocked gas in the WCR where the line was formed was adiabatic. After
  periastron, the subpeak flux was anomalously strong and varied rapidly,
  suggesting formation in clumps downstream in the WCR. For most of the
  time, its flux exceeded the 2-10-keV X-ray emission, showing it to be
  a significant coolant of the shocked wind.

---------------------------------------------------------
Title: VizieR Online Data Catalog: Vanishing natural coronagraph of
    eta Car (Damineli+, 2021)
Authors: Damineli, A.; Navarete, F.; Hillier, D. J.; Moffat, A. J.;
   Corcoran, M. F.; Gull, T. R.; Richardson, N. D.; Weigelt, G.; Morris,
   P. W.; Stevens, I.
2021yCat..75050963D    Altcode:
  These are the full versions of Tables A3, A4 and A5 of the
  manuscript. <P />(3 data files).

---------------------------------------------------------
Title: Confirming the First Low-Metallicity Wolf-Rayet Dust Factory
Authors: Lau, Ryan M.; Bond, Howard E.; Corcoran, Michael F.; Endo,
   Izumi; Hankins, Matthew J.; Jencson, Jacob; Jones, Olivia; Kasliwal,
   Mansi; Lamberts, Astrid; Moffat, Anthony F. J.; Morris, Patrick W.;
   Onaka, Takashi; Ressler, Michael E.; Richardson, Noel D.; Russell,
   Christopher Michael Post; Sakon, Itsuki; Weigelt, Gerd; Williams,
   Peredur
2021jwst.prop.1863L    Altcode:
  In our current understanding of dust-forming sources, we cannot
  account for the observed quantities of dust in local and high-redshift
  galaxies. Recent studies indicate that the answer to this long-standing
  mystery may include carbon-rich Wolf-Rayet (WC) stars. Theoretical
  models predict that WC stars can even be significant sources of
  dust at sub-solar metallicity, consistent with the lower metallicity
  environment of galaxies beyond the local Universe. However, there is
  a dearth of known dust-forming WC binaries at sub-solar metallicity to
  verify the model predictions. <P />New results from the Spitzer Space
  Telescope have identified an IR-luminous outburst named SPIRITS 19q,
  which exhibited highly efficient dust production likely linked to a
  dust-formation episode from an extragalactic WC system in the subsolar
  metallicity outskirts of the nearby galaxy NGC 2403. This tentative link
  between SPIRITS 19q and the WC star has not yet been confirmed due to
  the unresolved nature of the luminous stellar cluster coincident with
  19q. In this proposal, we request 6.74 hours of spectroscopic imaging
  observations with the NIRSpec IFU between 0.6 - 5.3 microns at R ~
  100 in order to confirm dust formation from the WC star by spatially
  resolving and identifying the near-IR (1 - 2 micron) spectroscopic
  features associated with the WC star and the mid-IR (3 - 5 micron)
  emission associated with the SPIRITS 19q. Efficient dust-formation
  from just one WC system can have a significant impact on the ISM,
  and confirmation of efficient dust formation from this WC star would
  validate the theoretical models that demonstrate WC stars as significant
  sources of dust at sub-solar metallicity.

---------------------------------------------------------
Title: The asymmetric inner disk of the Herbig Ae star HD 163296 in
the eyes of VLTI/MATISSE: evidence for a vortex?
Authors: Varga, J.; Hogerheijde, M.; van Boekel, R.; Klarmann, L.;
   Petrov, R.; Waters, L. B. F. M.; Lagarde, S.; Pantin, E.; Berio,
   Ph.; Weigelt, G.; Robbe-Dubois, S.; Lopez, B.; Millour, F.; Augereau,
   J. -C.; Meheut, H.; Meilland, A.; Henning, Th.; Jaffe, W.; Bettonvil,
   F.; Bristow, P.; Hofmann, K. -H.; Matter, A.; Zins, G.; Wolf, S.;
   Allouche, F.; Donnan, F.; Schertl, D.; Dominik, C.; Heininger, M.;
   Lehmitz, M.; Cruzalèbes, P.; Glindemann, A.; Meisenheimer, K.;
   Paladini, C.; Schöller, M.; Woillez, J.; Venema, L.; Kokoulina,
   E.; Yoffe, G.; Ábrahám, P.; Abadie, S.; Abuter, R.; Accardo, M.;
   Adler, T.; Agócs, T.; Antonelli, P.; Böhm, A.; Bailet, C.; Bazin, G.;
   Beckmann, U.; Beltran, J.; Boland, W.; Bourget, P.; Brast, R.; Bresson,
   Y.; Burtscher, L.; Castillo, R.; Chelli, A.; Cid, C.; Clausse, J. -M.;
   Connot, C.; Conzelmann, R. D.; Danchi, W. -C.; De Haan, M.; Delbo,
   M.; Ebert, M.; Elswijk, E.; Fantei, Y.; Frahm, R.; Gámez Rosas, V.;
   Gabasch, A.; Gallenne, A.; Garces, E.; Girard, P.; Gonté, F. Y. J.;
   González Herrera, J. C.; Graser, U.; Guajardo, P.; Guitton, F.;
   Haubois, X.; Hron, J.; Hubin, N.; Huerta, R.; Isbell, J. W.; Ives,
   D.; Jakob, G.; Jaskó, A.; Jochum, L.; Klein, R.; Kragt, J.; Kroes,
   G.; Kuindersma, S.; Labadie, L.; Laun, W.; Le Poole, R.; Leinert, C.;
   Lizon, J. -L.; Lopez, M.; Mérand, A.; Marcotto, A.; Mauclert, N.;
   Maurer, T.; Mehrgan, L. H.; Meisner, J.; Meixner, K.; Mellein, M.;
   Mohr, L.; Morel, S.; Mosoni, L.; Navarro, R.; Neumann, U.; Nußbaum,
   E.; Pallanca, L.; Pasquini, L.; Percheron, I.; Pott, J. -U.; Pozna,
   E.; Ridinger, A.; Rigal, F.; Riquelme, M.; Rivinius, Th.; Roelfsema,
   R.; Rohloff, R. -R.; Rousseau, S.; Schuhler, N.; Schuil, M.; Soulain,
   A.; Stee, P.; Stephan, C.; ter Horst, R.; Tromp, N.; Vakili, F.;
   van Duin, A.; Vinther, J.; Wittkowski, M.; Wrhel, F.
2021A&A...647A..56V    Altcode: 2020arXiv201205697V
  Context. A complex environment exists in the inner few astronomical
  units of planet-forming disks. High-angular-resolution observations
  play a key role in our understanding of the disk structure and the
  dynamical processes at work. <BR /> Aims: In this study we aim to
  characterize the mid-infrared brightness distribution of the inner disk
  of the young intermediate-mass star HD 163296 from early VLTI/MATISSE
  observations taken in the L- and N-bands. We put special emphasis on
  the detection of potential disk asymmetries. <BR /> Methods: We use
  simple geometric models to fit the interferometric visibilities and
  closure phases. Our models include a smoothed ring, a flat disk with
  an inner cavity, and a 2D Gaussian. The models can account for disk
  inclination and for azimuthal asymmetries as well. We also perform
  numerical hydrodynamical simulations of the inner edge of the disk. <BR
  /> Results: Our modeling reveals a significant brightness asymmetry in
  the L-band disk emission. The brightness maximum of the asymmetry is
  located at the NW part of the disk image, nearly at the position angle
  of the semimajor axis. The surface brightness ratio in the azimuthal
  variation is 3.5 ± 0.2. Comparing our result on the location of the
  asymmetry with other interferometric measurements, we confirm that
  the morphology of the r &lt; 0.3 au disk region is time-variable. We
  propose that this asymmetric structure, located in or near the inner
  rim of the dusty disk, orbits the star. To find the physical origin
  of the asymmetry, we tested a hypothesis where a vortex is created
  by Rossby wave instability, and we find that a unique large-scale
  vortex may be compatible with our data. The half-light radius of
  the L-band-emitting region is 0.33 ±0.01 au, the inclination is
  52°<SUB>-7°</SUB><SUP>+5°</SUP>, and the position angle is 143°
  ± 3°. Our models predict that a non-negligible fraction of the
  L-band disk emission originates inside the dust sublimation radius
  for μm-sized grains. Refractory grains or large (≳10 μm-sized)
  grains could be the origin of this emission. N-band observations may
  also support a lack of small silicate grains in the innermost disk
  (r ≲ 0.6 au), in agreement with our findings from L-band data. <P
  />Based on observations made with ESO Telescopes at the La Silla
  Paranal Observatory under program IDs 0103.D-0294 and 0103.D-0153.

---------------------------------------------------------
Title: The long-period orbit of the dust-producing Wolf-Rayet binary
    WR 125
Authors: Daly, A.; Richardson, N.; Chené, A.; Hill, G.; Williams,
   P.; Shenavrin, V.; Weigelt, G.
2021AAS...23713606D    Altcode:
  Recently the binary system WR 125, WC7+O, began a dust creation episode
  seen with an infrared outburst. This is the first time since 1991 that
  this type of activity has been observed for WR 125, leading to the first
  determination of a period: 28.1 years. We began collecting spectra
  of WR 125 to constrain the orbit, on the assumption that this system
  will produce dust near periastron, similarly to WR 140. We present the
  infrared light curves showing the similarities between the 1990s dust
  event and the current dust event, as well as the first measured radial
  velocities for the system to begin constraining the orbit. Based on
  data taken with Gemini Observatory and Keck Observatory. This research
  was partially supported through Embry-Riddle Aeronautical University's
  Faculty Innovative Research in Science and Technology (FIRST) Program
  as well as its Undergraduate Research Institute.

---------------------------------------------------------
Title: WR 140, a Colliding Wind Laboratory: The X-ray History
Authors: Corcoran, M.; Pollock, A.; Hamaguchi, K.; Russell, C.;
   Williams, P.; Moffat, A.; Weigelt, G.; Shenavrin, V.; Richardson, N.;
   Gendreau, K.; Arzoumanian, Z.; Stevens, I.; Espinoza, D.; Drake, S.;
   Gull, T.
2021AAS...23720406C    Altcode:
  WR140 is a long-period, highly eccentric massive colliding
  wind binary system with well-determined orbital and stellar
  parameters. Periodically-varying X-ray emission is primarily generated
  in the hot shocked gas produced by the collision of the winds of the
  WC7pd + O5.5fc star components in the space between the two stars. We
  have obtained time-resolved broad-band X-ray spectrometry using the
  RXTE, Swift and NICER X-ray observatories through 3 orbital cycles,
  including two consecutive periastron passages. We discuss the X-ray
  variations in the context of the colliding wind model, and we consider
  the implications of the X-ray data for our understanding of the
  shocked plasma and its relation to the orbital parameters and other
  multi-wavelength observations .

---------------------------------------------------------
Title: Infrared interferometric imaging of the compact dust disk
    around the AGB star HR3126 with the bipolar Toby Jug Nebula
Authors: Ohnaka, K.; Schertl, D.; Hofmann, K. -H.; Weigelt, G.
2020A&A...643A.175O    Altcode: 2020arXiv201200768O
  <BR /> Aims: The asymptotic giant branch (AGB) star HR3126, associated
  with the arcminute-scale bipolar Toby Jug Nebula, provides a rare
  opportunity to study the emergence of bipolar structures at the end of
  the AGB phase. Our goal is to image the central region of HR3126 with
  high spatial resolution. <BR /> Methods: We carried out long-baseline
  interferometric observations with AMBER and GRAVITY (2-2.45 μm) at the
  Very Large Telescope Interferometer with spectral resolutions of 1500
  and 4500, speckle interferometric observations with VLT/NACO (2.24 μm),
  and imaging with SPHERE-ZIMPOL (0.55 μm) and VISIR (7.9-19.5 μm). <BR
  /> Results: The images reconstructed in the continuum at 2.1-2.29 μm
  from the AMBER+GRAVITY data reveal the central star surrounded by an
  elliptical ring-like structure with a semimajor and semiminor axis of
  5.3 and 3.5 mas, respectively. The ring is interpreted as the inner rim
  of an equatorial dust disk viewed from an inclination angle of ~50°,
  and its axis is approximately aligned with the arcminute-scale bipolar
  nebula. The disk is surprisingly compact, with an inner radius of a
  mere 3.5 R<SUB>⋆</SUB> (2 au). Our 2-D radiative transfer modeling
  shows that an optically thick flared disk with silicate grains as large
  as ~4 μm can simultaneously reproduce the observed continuum images
  and the spectral energy distribution. The images reconstructed in the
  CO first overtone bands reveal elongated extended emission around the
  central star, suggesting the oblateness of the star's atmosphere or
  the presence of a CO gas disk inside the dust cavity. The object is
  unresolved with SPHERE-ZIMPOL, NACO, and VISIR. <BR /> Conclusions:
  If the disk formed together with the bipolar nebula, the grain growth
  from sub-micron to a few microns should have taken place over the
  nebula's dynamical age of ~3900 yrs. The non-detection of a companion
  in the reconstructed images implies that either its 2.2 μm brightness
  is more than ~30 times lower than that of the red giant or it might
  have been shredded due to binary interaction. <P />Based on AMBER,
  GRAVITY, NACO, SPHERE, and VISIR observations made with the Very Large
  Telescope and Very Large Telescope Interferometer of the European
  Southern Observatory. Program IDs: 096.D-0482, 098.D-0525, 099.D-0493,
  and 0102.D-0550. <P />Based on observations with AKARI, a JAXA project
  with the participation of ESA. <P />Herschel is an ESA space observatory
  with science instruments provided by European-led Principal Investigator
  consortia and with important participation from NASA.

---------------------------------------------------------
Title: Onthe changes in the physical properties of the ionized
    region around the Weigelt structures in η Carinae over the 5.54-yr
    spectroscopic cycle
Authors: Teodoro, M.; Gull, T. R.; Bautista, M. A.; Hillier, D. J.;
   Weigelt, G.; Corcoran, M. F.
2020MNRAS.495.2754T    Altcode: 2020arXiv200502139T; 2020MNRAS.tmp.1429T
  We present HST/STIS observations and analysis of two prominent nebular
  structures around the central source of η Carinae, the knots C and
  D. The former is brighter than the latter for emission lines from
  intermediate- or high-ionization potential ions. The brightness of lines
  from intermediate- and high-ionization potential ions significantly
  decreases at phases around periastron. We do not see conspicuous
  changes in the brightness of lines from low-ionization potential
  (&lt;13.6 eV) ions over the orbital period. Line ratios suggest that
  the total extinction towards the Weigelt structures is A<SUB>V</SUB>
  = 2.0. Weigelt C and D are characterized by an electron density of
  10<SUP>6.9</SUP> cm<SUP>-3</SUP> that does not significantly change
  throughout the orbital cycle. The electron temperature varies from
  5500 (around periastron) to 7200 K (around apastron). The relative
  changes in the brightness of the He I lines are well reproduced by
  the variations in the electron temperature alone. We found that, at
  phases around periastron, the electron temperature seems to be higher
  for Weigelt C than that of D. The Weigelt structures are located close
  to the Homunculus equatorial plane, at a distance of about 1240 au
  from the central source. From the analysis of proper motion and age,
  the Weigelt complex can be associated with the equatorial structure
  called 'Butterfly Nebula' surrounding the central binary system.

---------------------------------------------------------
Title: Imaging the expanding knotty structure in the close environment
    of the LBV star $\eta$ Carinae
Authors: Millour, F.; Lagadec, E.; Montargès, M.; Kervella, P.;
   Soulain, A.; Vakili, F.; Petrov, R.; Weigelt, G.; Groh, J.; Smith, N.;
   Mehner, A.; Schmid, H. M.; Ramos, J.; Moeller-Nillson, O.; Roelfsema,
   R.; Rigal, F.
2020arXiv200615660M    Altcode:
  $\eta$~Car is one of the most massive stars in the Galaxy. It underwent
  a massive eruption in the 19th century, which produced the impressive
  bipolar Homunculus nebula now surrounding it. The central star is an
  eccentric binary with a period of 5.54\,years. Although the companion
  has not been detected directly, it causes time-variable ionization and
  colliding-wind X-ray emission. By characterizing the complex structure
  and kinematics of the ejecta close to the star, we aim to constrain past
  and present mass loss of $\eta$~Car. $\eta$~Car is observed with the
  extreme adaptive optics instrument SPHERE at the Very Large Telescope,
  using its polarimetric mode in the optical with the ZIMPOL camera. A
  spatial resolution of 20\,mas was achieved, i.e. very close to the
  presumed 13 mas apastron separation of the companion star. We detect
  new structures within the inner arcsecond to the star (2\,300\,au at
  a 2.3\,kpc distance). We can relate these structures to the eruption
  near 1890 by tracking their proper motions derived from our new images
  and historical images over a 30\,years time span. Besides, we find a
  fan-shaped structure in the inner 200~au to the star in the H$\alpha$
  line, that could potentially be associated with the wind collision
  zone of the two stars.

---------------------------------------------------------
Title: Brightest Non-Thermal X-ray Emission Observed from Eta Carinae
Authors: Hamaguchi, Kenji; Espinoza-Galeas, David A.; Corcoran,
   Michael Francis; Russell, Christopher; Pittard, Julian; Madura,
   Thomas; Takahashi, Hiromitsu; Gull, Theodore; Richardson, Noel;
   Damineli, Augusto; Hillier, Desmond; Moffat, Anthony; Weigelt, Gerd;
   Pollock, Andy
2020ATel13738....1H    Altcode:
  The NuSTAR X-ray observatory pointed at the massive colliding wind
  binary system, eta Carinae, for 90 ksec on 2020 April 13-14 (phi_orb =
  4.0297) as its thermal X-ray emission was gradually recovering from
  its minimum flux in mid February (ATel #13636) near its most recent
  periastron passage.

---------------------------------------------------------
Title: Modeling of Spectroscopic and Interferometric Observations
    of the Herbig Star VV Ser with Hybrid Models
Authors: Tambovtseva, L. V.; Kreplin, A.; Grinin, V. P.; Weigelt, G.
2020ARep...64..336T    Altcode:
  Modeling of hydrogen emission lines is a powerful tool to study physical
  processes in the nearest vicinity of young stars because spectral
  lines carry information on the kinematics and physical conditions of
  the gas. One of the lines that probe emitting regions closest to the
  star is the Br line. We consider different types of hybrid models to
  reproduce both interferometric VLTI-AMBER observations and LBT-LUCIFER
  spectroscopic observations of the single-peak profile of the Br line
  of the Herbig AeBe star (HAEBE) VV Ser, a member of the UX Ori type
  subclass. We computed models of a magneto-centrifugal disk wind,
  a magnetospheric accretion region (magnetosphere), Cranmer's polar
  wind, and scattered light from circumstellar polar dust. Furthermore,
  we calculated hybrid two-component models consisting of a disk wind
  and one of the aforementioned models. We computed visibilities and line
  profiles for all types of models and compared them with the available
  interferometric observations to constrain model parameters. We conclude
  that for the inclinations reported for this star (60°-70°), the
  disk wind alone cannot explain the Br line profile although it may
  be a dominant contributor to the hydrogen line radiation. However,
  magneto-centrifugal disk wind in combination with aforementioned
  emitting regions (magnetosphere, polar wind, or scattered light from
  polar dust) may be able to reproduce the observations.

---------------------------------------------------------
Title: CO, Water, and Tentative Methanol in η Carinae Approaching
    Periastron
Authors: Morris, Patrick W.; Charnley, Steven B.; Corcoran, Michael;
   Cordiner, Martin; Damineli, Augusto; Groh, Jose H.; Gull, Theodore R.;
   Loinard, Laurent; Madura, Thomas; Mehner, Andrea; Moffat, Anthony;
   Palmer, Maureen Y.; Rau, Gioia; Richardson, Noel D.; Weigelt, Gerd
2020ApJ...892L..23M    Altcode: 2020arXiv200211053M
  The complex circumstellar environment around the massive binary and
  luminous blue variable η Carinae is known to harbor numerous light
  molecules, emitting most strongly in rotational states with upper level
  energies to ∼300 K. In circumstellar gas, the complex organic molecule
  methanol (CH<SUB>3</SUB>OH) has been found almost exclusively around
  young stellar objects, and thus regarded as a signpost of recent star
  formation. Here we report the first potential detection of methanol
  around a highly evolved high-mass star, while using the Atacama Large
  Millimeter Array to investigate molecular cloud conditions traced by CO
  (2-1) in an orbit phase preceding the 2020 periastron. The methanol
  emission originates from hot (T<SUB>gas</SUB> ≃ 700 K) material,
  ∼2″ (0.02 pc) across, centered on the dust-obscured binary, and is
  accompanied by prominent absorption of continuum radiation in a cooler
  (T<SUB>gas</SUB> ≃ 110 K) layer of gas. We also report a first
  detection of water in Herschel observations at 557 and 988 GHz. The
  methanol abundance is several to 50 times higher than observed toward
  several lower-mass stars, while water abundances are similar to those
  observed in cool, dense molecular clouds. The very high methanol:water
  abundance ratio in the core of η Car may suggest methanol formation
  processes similar to Fischer-Tropsch-type catalytic reactions on dust
  grains. These observations prove that complex molecule formation can
  occur in a chemically evolved massive stellar environment, given
  sufficient gas densities and shielding conditions as may occur in
  material around massive interacting companions and merger remnants.

---------------------------------------------------------
Title: Eta Carinae's Recovery from the 2020 X-ray Minimum as Seen
    by NICER\
Authors: Espinoza-Galeas, David A.; Corcoran, Michael Francis;
   Hamaguchi, Kenji; Gull, Theodore; Richardson, Noel; Russell,
   Christopher; Damineli, Augusto; Navarete, Felipe; Hillier, Desmond;
   Moffat, Anthony; Weigelt, Gerd; Pollock, Andy; Arzoumanian, Zaven;
   Gendreau, Keith C.
2020ATel13636....1E    Altcode:
  Eta Carinae (Eta Car) is a super-massive, long-period, eccentric,
  unstable Colliding Wind Binary (CWB) system which experiences periodic
  X-ray minima near periastron passage.

---------------------------------------------------------
Title: NICER Observations of the 2020 X-ray Minimum of eta Carinae
Authors: Corcoran, Michael F.; Hamaguchi, Kenji; Espinoza, David;
   Gull, Ted; Gendreau, Keith; Arzoumanian, Zaven; Moffat, A. F. J.;
   Weigelt, Gerd; Richardson, Noel; Damineli, Augusto; Navarete, Felipe
2020ATel13516....1C    Altcode:
  X-ray emission from the massive colliding wind binary eta Carinae has
  been monitored by NASA's Neutron Star Interior Composition Explorer
  (NICER) X-ray observatory since 20 July 2017, through the system's
  recent X-ray minimum and periastron passage (ATEL #13508).

---------------------------------------------------------
Title: GRAVITY and the Galactic Centre
Authors: GRAVITY Collaboration; Abuter, R.; Accardo, M.; Adler,
   T.; Amorim, A.; Anugu, N.; Ávila, G.; Bauböck, M.; Benisty, M.;
   Berger, J. -P.; Bestenlehner, J. M.; Beust, H.; Blind, N.; Bonnefoy,
   M.; Bonnet, H.; Bourget, P.; Bouvier, J.; Brandner, W.; Brast,
   R.; Buron, A.; Burtscher, L.; Cantalloube, F.; Caratti O Garatti,
   A.; Caselli, P.; Cassaing, F.; Chapron, F.; Charnay, B.; Choquet,
   É.; Clénet, Y.; Collin, C.; Coudé Du Foresto, V.; Davies, R.;
   Deen, C.; Delplancke-Ströbele, F.; Dembet, R.; Derie, F.; de Wit,
   W. -J.; Dexter, J.; de Zeeuw, T.; Dougados, C.; Dubus, G.; Duvert,
   G.; Ebert, M.; Eckart, A.; Eisenhauer, F.; Esselborn, M.; Eupen, F.;
   Fédou, P.; Ferreira, M. C.; Finger, G.; Förster Schreiber, N. M.;
   Gao, F.; García Dabó, C. E.; Garcia Lopez, R.; Garcia, P. J. V.;
   Gendron, É.; Genzel, R.; Gerhard, O.; Gil, J. P.; Gillessen, S.;
   Gonté, F.; Gordo, P.; Gratadour, D.; Greenbaum, A.; Grellmann, R.;
   Grözinger, U.; Guajardo, P.; Guieu, S.; Habibi, M.; Haguenauer, P.;
   Hans, O.; Haubois, X.; Haug, M.; Haußmann, F.; Henning, T.; Hippler,
   S.; Hönig, S. F.; Horrobin, M.; Huber, A.; Hubert, Z.; Hubin, N.;
   Hummel, C. A.; Jakob, G.; Janssen, A.; Jimenez Rosales, A.; Jochum,
   L.; Jocou, L.; Kammerer, J.; Karl, M.; Kaufer, A.; Kellner, S.;
   Kendrew, S.; Kern, L.; Kervella, P.; Kiekebusch, M.; Kishimoto, M.;
   Klarmann, L.; Klein, R.; Köhler, R.; Kok, Y.; Kolb, J.; Koutoulaki,
   M.; Kulas, M.; Labadie, L.; Lacour, S.; Lagrange, A. -M.; Lapeyrère,
   V.; Laun, W.; Lazareff, B.; Le Bouquin, J. -B.; Léna, P.; Lenzen,
   R.; Lévêque, S.; Lin, C. -C.; Lippa, M.; Lutz, D.; Magnard, Y.;
   Maire, A. -L.; Mehrgan, L.; Mérand, A.; Millour, F.; Mollière,
   P.; Moulin, T.; Müller, A.; Müller, E.; Müller, F.; Netzer, H.;
   Neumann, U.; Nowak, M.; Oberti, S.; Ott, T.; Pallanca, L.; Panduro,
   J.; Pasquini, L.; Paumard, T.; Percheron, I.; Perraut, K.; Perrin, G.;
   Peterson, B. M.; Petrucci, P. -O.; Pflüger, A.; Pfuhl, O.; Phan Duc,
   T.; Pineda, J. E.; Plewa, P. M.; Popovic, D.; Pott, J. -U.; Prieto,
   A.; Pueyo, L.; Rabien, S.; Ramírez, A.; Ramos, J. R.; Rau, C.; Ray,
   T.; Riquelme, M.; Rodríguez-Coira, G.; Rohloff, R. -R.; Rouan, D.;
   Rousset, G.; Sanchez-Bermudez, J.; Schartmann, M.; Scheithauer,
   S.; Schöller, M.; Schuhler, N.; Segura-Cox, D.; Shangguan, J.;
   Shimizu, T. T.; Spyromilio, J.; Sternberg, A.; Stock, M. R.; Straub,
   O.; Straubmeier, C.; Sturm, E.; Suárez Valles, M.; Tacconi, L. J.;
   Thi, W. -F.; Tristram, K. R. W.; Valenzuela, J. J.; van Boekel, R.;
   van Dishoeck, E. F.; Vermot, P.; Vincent, F.; von Fellenberg, S.;
   Waisberg, I.; Wang, J. J.; Wank, I.; Weber, J.; Weigelt, G.; Widmann,
   F.; Wieprecht, E.; Wiest, M.; Wiezorrek, E.; Wittkowski, M.; Woillez,
   J.; Wolff, B.; Yang, P.; Yazici, S.; Ziegler, D.; Zins, G.
2019Msngr.178...26G    Altcode:
  On a clear night, our home galaxy, the Milky Way, is visible as a
  starry ribbon across the sky. Its core is located in the constellation
  of Sagittarius, approximately where the bright glow is interrupted
  by the darkest dust filaments. There, hidden, lies a massive black
  hole. To peer through the obscuring clouds and see the stars and gas
  near the black hole we use GRAVITY. The main GRAVITY results are the
  detection of gra- vitational redshift, the most precise mass- distance
  measurement, the test of the equivalence principle, and the detection
  of orbital motion near the black hole.

---------------------------------------------------------
Title: An Image of the Dust Sublimation Region in the Nucleus of
    NGC 1068
Authors: GRAVITY Collaboration; Abuter, R.; Accardo, M.; Adler,
   T.; Amorim, A.; Anugu, N.; Ávila, G.; Bauböck, M.; Benisty, M.;
   Berger, J. -P.; Bestenlehner, J. M.; Beust, H.; Blind, N.; Bonnefoy,
   M.; Bonnet, H.; Bourget, P.; Bouvier, J.; Brandner, W.; Brast,
   R.; Buron, A.; Burtscher, L.; Cantalloube, F.; Caratti O Garatti,
   A.; Caselli, P.; Cassaing, F.; Chapron, F.; Charnay, B.; Choquet,
   É.; Clénet, Y.; Collin, C.; Coudé Du Foresto, V.; Davies, R.;
   Deen, C.; Delplancke-Ströbele, F.; Dembet, R.; Derie, F.; de Wit,
   W. -J.; Dexter, J.; de Zeeuw, T.; Dougados, C.; Dubus, G.; Duvert,
   G.; Ebert, M.; Eckart, A.; Eisenhauer, F.; Esselborn, M.; Eupen, F.;
   Fédou, P.; Ferreira, M. C.; Finger, G.; Förster Schreiber, N. M.;
   Gao, F.; García Dabó, C. E.; Garcia Lopez, R.; Garcia, P. J. V.;
   Gendron, É.; Genzel, R.; Gerhard, O.; Gil, J. P.; Gillessen, S.;
   Gonté, F.; Gordo, P.; Gratadour, D.; Greenbaum, A.; Grellmann, R.;
   Grözinger, U.; Guajardo, P.; Guieu, S.; Habibi, M.; Haguenauer, P.;
   Hans, O.; Haubois, X.; Haug, M.; Haußmann, F.; Henning, T.; Hippler,
   S.; Hönig, S. F.; Horrobin, M.; Huber, A.; Hubert, Z.; Hubin, N.;
   Hummel, C. A.; Jakob, G.; Janssen, A.; Jimenez Rosales, A.; Jochum,
   L.; Jocou, L.; Kammerer, J.; Karl, M.; Kaufer, A.; Kellner, S.;
   Kendrew, S.; Kern, L.; Kervella, P.; Kiekebusch, M.; Kishimoto, M.;
   Klarmann, L.; Klein, R.; Köhler, R.; Kok, Y.; Kolb, J.; Koutoulaki,
   M.; Kulas, M.; Labadie, L.; Lacour, S.; Lagrange, A. -M.; Lapeyrère,
   V.; Laun, W.; Lazareff, B.; Le Bouquin, J. -B.; Léna, P.; Lenzen,
   R.; Lévêque, S.; Lin, C. -C.; Lippa, M.; Lutz, D.; Magnard, Y.;
   Maire, A. -L.; Mehrgan, L.; Mérand, A.; Millour, F.; Mollière,
   P.; Moulin, T.; Müller, A.; Müller, E.; Müller, F.; Netzer, H.;
   Neumann, U.; Nowak, M.; Oberti, S.; Ott, T.; Pallanca, L.; Panduro,
   J.; Pasquini, L.; Paumard, T.; Percheron, I.; Perraut, K.; Perrin, G.;
   Peterson, B. M.; Petrucci, P. -O.; Pflüger, A.; Pfuhl, O.; Phan Duc,
   T.; Pineda, J. E.; Plewa, P. M.; Popovic, D.; Pott, J. -U.; Prieto,
   A.; Pueyo, L.; Rabien, S.; Ramírez, A.; Ramos, J. R.; Rau, C.; Ray,
   T.; Riquelme, M.; Rodríguez-Coira, G.; Rohloff, R. -R.; Rouan, D.;
   Rousset, G.; Sanchez-Bermudez, J.; Schartmann, M.; Scheithauer,
   S.; Schöller, M.; Schuhler, N.; Segura-Cox, D.; Shangguan, J.;
   Shimizu, T. T.; Spyromilio, J.; Sternberg, A.; Stock, M. R.; Straub,
   O.; Straubmeier, C.; Sturm, E.; Suárez Valles, M.; Tacconi, L. J.;
   Thi, W. -F.; Tristram, K. R. W.; Valenzuela, J. J.; van Boekel, R.;
   van Dishoeck, E. F.; Vermot, P.; Vincent, F.; von Fellenberg, S.;
   Waisberg, I.; Wang, J. J.; Wank, I.; Weber, J.; Weigelt, G.; Widmann,
   F.; Wieprecht, E.; Wiest, M.; Wiezorrek, E.; Wittkowski, M.; Woillez,
   J.; Wolff, B.; Yang, P.; Yazici, S.; Ziegler, D.; Zins, G.
2019Msngr.178...24G    Altcode:
  The superb resolution of the Very Large Telescope Interferometer
  (VLTI) and the unrivalled sensitivity of GRAVITY have allowed us to
  reconstruct the first detailed image of the dust sublimation region in
  an active galaxy. In the nearby archetypal Seyfert 2 galaxy NGC 1068,
  the 2 µm continuum emission traces a highly inclined thin ring-like
  structure with a radius of 0.24 pc. The observed morphology challenges
  the picture of a geometrically and optically thick torus.

---------------------------------------------------------
Title: 3D time-dependent hydrodynamical and radiative transfer
    modeling of Eta Carinae's innermost fossil colliding wind structures
Authors: Madura, Thomas; Gull, T. R.; Clementel, N.; Corcoran,
   M.; Damineli, A.; Hamaguchi, K.; Hillier, D. J.; Moffat, A. F. J.;
   Richardson, N.; Weigelt, G.
2019IAUS..346...62M    Altcode:
  Eta Carinae is the most massive active binary within 10,000
  light-years. While famous for the largest non-terminal stellar
  explosion ever recorded, observations reveal a supermassive (∼120
  M<SUB>⊙</SUB>) binary consisting of an LBV and either a WR or
  extreme O star in a very eccentric orbit (e=0.9) with a 5.54-year
  period. Dramatic changes across multiple wavelengths are routinely
  observed as the stars move about in their highly elliptical orbits,
  especially around periastron when the hot (∼40 kK) companion star
  delves deep into the denser and much cooler (∼15 kK) extended wind
  photosphere of the LBV primary. Many of these changes are due to a
  dynamic wind-wind collision region (WWCR) that forms between the stars,
  plus expanding radiation-illuminated fossil WWCRs formed one, two,
  and three 5.54-year orbital cycles ago. These fossil WWCRs have been
  spatially and spectrally resolved by the Hubble Space Telescope/Space
  Telescope Imaging Spectrograph (HST/STIS) at multiple epochs, resulting
  in data cubes that spatially map Eta Carinae's innermost WWCRs and
  follow temporal changes in several forbidden emission lines (e.g. [Fe
  uc(iii)] 4659 Å, [Fe uc(ii)] 4815 Å) across the 5.54-year cycle. We
  present initial results of 3D time-dependent hydrodynamical and
  radiative-transfer simulations of the Eta Carinae binary and its WWCRs
  with the goal of producing synthetic data cubes of forbidden emission
  lines for comparison to the available HST/STIS observations. Comparison
  of the theoretical models to the observations reveals important details
  about the binary's orbital motion, photoionization properties, and
  recent (5-15year) mass loss history. Such an analysis also provides
  a baseline for following future changes in Eta Carinae, essential
  for understanding the late-stage evolution of a nearby supernova
  progenitor. Our modeling methods can also be adapted to a number of
  other colliding wind binary systems (e.g. WR 140) that are scheduled
  to be studied with future observatories (e.g. the James Webb Space
  Telescope).

---------------------------------------------------------
Title: Spatially Resolved Accretion-Ejection in Compact Binaries
    with GRAVITY
Authors: GRAVITY Collaboration; Abuter, R.; Accardo, M.; Adler,
   T.; Amorim, A.; Anugu, N.; Ávila, G.; Bauböck, M.; Benisty, M.;
   Berger, J. -P.; Bestenlehner, J. M.; Beust, H.; Blind, N.; Bonnefoy,
   M.; Bonnet, H.; Bourget, P.; Bouvier, J.; Brandner, W.; Brast,
   R.; Buron, A.; Burtscher, L.; Cantalloube, F.; Caratti O Garatti,
   A.; Caselli, P.; Cassaing, F.; Chapron, F.; Charnay, B.; Choquet,
   É.; Clénet, Y.; Collin, C.; Coudé Du Foresto, V.; Davies, R.;
   Deen, C.; Delplancke-Ströbele, F.; Dembet, R.; Derie, F.; de Wit,
   W. -J.; Dexter, J.; de Zeeuw, T.; Dougados, C.; Dubus, G.; Duvert,
   G.; Ebert, M.; Eckart, A.; Eisenhauer, F.; Esselborn, M.; Eupen, F.;
   Fédou, P.; Ferreira, M. C.; Finger, G.; Förster Schreiber, N. M.;
   Gao, F.; García Dabó, C. E.; Garcia Lopez, R.; Garcia, P. J. V.;
   Gendron, É.; Genzel, R.; Gerhard, O.; Gil, J. P.; Gillessen, S.;
   Gonté, F.; Gordo, P.; Gratadour, D.; Greenbaum, A.; Grellmann, R.;
   Grözinger, U.; Guajardo, P.; Guieu, S.; Habibi, M.; Haguenauer, P.;
   Hans, O.; Haubois, X.; Haug, M.; Haußmann, F.; Henning, T.; Hippler,
   S.; Hönig, S. F.; Horrobin, M.; Huber, A.; Hubert, Z.; Hubin, N.;
   Hummel, C. A.; Jakob, G.; Janssen, A.; Jimenez Rosales, A.; Jochum,
   L.; Jocou, L.; Kammerer, J.; Karl, M.; Kaufer, A.; Kellner, S.;
   Kendrew, S.; Kern, L.; Kervella, P.; Kiekebusch, M.; Kishimoto, M.;
   Klarmann, L.; Klein, R.; Köhler, R.; Kok, Y.; Kolb, J.; Koutoulaki,
   M.; Kulas, M.; Labadie, L.; Lacour, S.; Lagrange, A. -M.; Lapeyrère,
   V.; Laun, W.; Lazareff, B.; Le Bouquin, J. -B.; Léna, P.; Lenzen,
   R.; Lévêque, S.; Lin, C. -C.; Lippa, M.; Lutz, D.; Magnard, Y.;
   Maire, A. -L.; Mehrgan, L.; Mérand, A.; Millour, F.; Mollière,
   P.; Moulin, T.; Müller, A.; Müller, E.; Müller, F.; Netzer, H.;
   Neumann, U.; Nowak, M.; Oberti, S.; Ott, T.; Pallanca, L.; Panduro,
   J.; Pasquini, L.; Paumard, T.; Percheron, I.; Perraut, K.; Perrin, G.;
   Peterson, B. M.; Petrucci, P. -O.; Pflüger, A.; Pfuhl, O.; Phan Duc,
   T.; Pineda, J. E.; Plewa, P. M.; Popovic, D.; Pott, J. -U.; Prieto,
   A.; Pueyo, L.; Rabien, S.; Ramírez, A.; Ramos, J. R.; Rau, C.; Ray,
   T.; Riquelme, M.; Rodríguez-Coira, G.; Rohloff, R. -R.; Rouan, D.;
   Rousset, G.; Sanchez-Bermudez, J.; Schartmann, M.; Scheithauer,
   S.; Schöller, M.; Schuhler, N.; Segura-Cox, D.; Shangguan, J.;
   Shimizu, T. T.; Spyromilio, J.; Sternberg, A.; Stock, M. R.; Straub,
   O.; Straubmeier, C.; Sturm, E.; Suárez Valles, M.; Tacconi, L. J.;
   Thi, W. -F.; Tristram, K. R. W.; Valenzuela, J. J.; van Boekel, R.;
   van Dishoeck, E. F.; Vermot, P.; Vincent, F.; von Fellenberg, S.;
   Waisberg, I.; Wang, J. J.; Wank, I.; Weber, J.; Weigelt, G.; Widmann,
   F.; Wieprecht, E.; Wiest, M.; Wiezorrek, E.; Wittkowski, M.; Woillez,
   J.; Wolff, B.; Yang, P.; Yazici, S.; Ziegler, D.; Zins, G.
2019Msngr.178...29G    Altcode:
  The GRAVITY instrument at the Very Large Telescope Interferometer has
  led to the first spatially resolved observations of X-ray binaries at
  scales comparable to the binary orbit, providing unprecedented spatial
  information on their accretion-ejection mechanisms. In particular,
  observations of the hypercritical accretor SS433 have revealed a
  variety of spatial structures at the heart of this exotic microquasar,
  including bipolar outflows, super-Keplerian equatorial outflows and
  extended baryonic jets photoionised by collimated ultraviolet radiation.

---------------------------------------------------------
Title: Variable Warm Dust around the Herbig Ae Star HD 169142:
    Birth of a Ring?
Authors: Chen, Lei; Moór, Attila; Kreplin, Alexander; Kóspál,
   Ágnes; Ábrahám, Peter; Matter, Alexis; Carmona, Andres; Hofmann,
   Karl-Heinz; Schertl, Dieter; Weigelt, Gerd
2019ApJ...887L..32C    Altcode: 2019arXiv191110253C
  The Herbig Ae star HD 169142 is known to have a gaseous disk with
  a large inner hole, and also a photometrically variable inner dust
  component in the sub-astronomical-unit region. Following up on our
  previous analysis, we further studied the temporal evolution of
  inner dust around HD 169142, which may provide information on the
  evolution from late-stage protoplanetary disks to debris disks. We
  used near-infrared interferometric observations obtained with the
  Very Large Telescope Interferometer/PIONIER to constrain the dust
  distribution at three epochs spanning six years. We also studied
  the photometric variability of HD 169142 using our optical-infrared
  observations and archival data. Our results indicate that a dust ring
  at ∼0.3 au formed some time between 2013 and 2018, and then faded
  (but did not completely disappear) by 2019. The short-term variability
  resembles that observed in extreme debris disks, and is likely related
  to short-lived dust of secondary origin, though variable shadowing from
  the inner ring could be an alternative interpretation. If confirmed,
  this is the first direct detection of secondary dust production inside
  a protoplanetary disk. <P />Based on observations collected at the
  European Organisation for Astronomical Research in the Southern
  Hemisphere under ESO programs 0101.C-0367 and 60.A-9135.

---------------------------------------------------------
Title: Hunting Exoplanets with Single-Mode Optical Interferometry
Authors: GRAVITY Collaboration; Abuter, R.; Accardo, M.; Adler,
   T.; Amorim, A.; Anugu, N.; Ávila, G.; Bauböck, M.; Benisty, M.;
   Berger, J. -P.; Bestenlehner, J. M.; Beust, H.; Blind, N.; Bonnefoy,
   M.; Bonnet, H.; Bourget, P.; Bouvier, J.; Brandner, W.; Brast,
   R.; Buron, A.; Burtscher, L.; Cantalloube, F.; Caratti O Garatti,
   A.; Caselli, P.; Cassaing, F.; Chapron, F.; Charnay, B.; Choquet,
   É.; Clénet, Y.; Collin, C.; Coudé Du Foresto, V.; Davies, R.;
   Deen, C.; Delplancke-Ströbele, F.; Dembet, R.; Derie, F.; de Wit,
   W. -J.; Dexter, J.; de Zeeuw, T.; Dougados, C.; Dubus, G.; Duvert,
   G.; Ebert, M.; Eckart, A.; Eisenhauer, F.; Esselborn, M.; Eupen, F.;
   Fédou, P.; Ferreira, M. C.; Finger, G.; Förster Schreiber, N. M.;
   Gao, F.; García Dabó, C. E.; Garcia Lopez, R.; Garcia, P. J. V.;
   Gendron, É.; Genzel, R.; Gerhard, O.; Gil, J. P.; Gillessen, S.;
   Gonté, F.; Gordo, P.; Gratadour, D.; Greenbaum, A.; Grellmann, R.;
   Grözinger, U.; Guajardo, P.; Guieu, S.; Habibi, M.; Haguenauer, P.;
   Hans, O.; Haubois, X.; Haug, M.; Haußmann, F.; Henning, T.; Hippler,
   S.; Hönig, S. F.; Horrobin, M.; Huber, A.; Hubert, Z.; Hubin, N.;
   Hummel, C. A.; Jakob, G.; Janssen, A.; Jimenez Rosales, A.; Jochum,
   L.; Jocou, L.; Kammerer, J.; Karl, M.; Kaufer, A.; Kellner, S.;
   Kendrew, S.; Kern, L.; Kervella, P.; Kiekebusch, M.; Kishimoto, M.;
   Klarmann, L.; Klein, R.; Köhler, R.; Kok, Y.; Kolb, J.; Koutoulaki,
   M.; Kulas, M.; Labadie, L.; Lacour, S.; Lagrange, A. -M.; Lapeyrère,
   V.; Laun, W.; Lazareff, B.; Le Bouquin, J. -B.; Léna, P.; Lenzen,
   R.; Lévêque, S.; Lin, C. -C.; Lippa, M.; Lutz, D.; Magnard, Y.;
   Maire, A. -L.; Mehrgan, L.; Mérand, A.; Millour, F.; Mollière,
   P.; Moulin, T.; Müller, A.; Müller, E.; Müller, F.; Netzer, H.;
   Neumann, U.; Nowak, M.; Oberti, S.; Ott, T.; Pallanca, L.; Panduro,
   J.; Pasquini, L.; Paumard, T.; Percheron, I.; Perraut, K.; Perrin, G.;
   Peterson, B. M.; Petrucci, P. -O.; Pflüger, A.; Pfuhl, O.; Phan Duc,
   T.; Pineda, J. E.; Plewa, P. M.; Popovic, D.; Pott, J. -U.; Prieto,
   A.; Pueyo, L.; Rabien, S.; Ramírez, A.; Ramos, J. R.; Rau, C.; Ray,
   T.; Riquelme, M.; Rodríguez-Coira, G.; Rohloff, R. -R.; Rouan, D.;
   Rousset, G.; Sanchez-Bermudez, J.; Schartmann, M.; Scheithauer,
   S.; Schöller, M.; Schuhler, N.; Segura-Cox, D.; Shangguan, J.;
   Shimizu, T. T.; Spyromilio, J.; Sternberg, A.; Stock, M. R.; Straub,
   O.; Straubmeier, C.; Sturm, E.; Suárez Valles, M.; Tacconi, L. J.;
   Thi, W. -F.; Tristram, K. R. W.; Valenzuela, J. J.; van Boekel, R.;
   van Dishoeck, E. F.; Vermot, P.; Vincent, F.; von Fellenberg, S.;
   Waisberg, I.; Wang, J. J.; Wank, I.; Weber, J.; Weigelt, G.; Widmann,
   F.; Wieprecht, E.; Wiest, M.; Wiezorrek, E.; Wittkowski, M.; Woillez,
   J.; Wolff, B.; Yang, P.; Yazici, S.; Ziegler, D.; Zins, G.
2019Msngr.178...47G    Altcode:
  The GRAVITY instrument was primarily conceived for imaging and
  astrometry of the Galactic centre. However, its sensitivity and
  astrometric capabilities have also enabled interferometry to reach
  a new domain of astrophysics: exoplanetology. In March 2019, the
  GRAVITY collaboration published the first spectrum and astrometry of an
  exoplanet obtained by optical interferometry. In this article, we show
  how this observation is paving the way to even more exciting discoveries
  — finding new planets, and characterising their atmospheres.

---------------------------------------------------------
Title: Evidence of a discontinuous disk structure around the Herbig
    Ae star HD 139614 (Corrigendum)
Authors: Matter, A.; Labadie, L.; Kreplin, A.; Lopez, B.; Wolf, S.;
   Weigelt, G.; Ertel, S.; Pott, J. -U.; Danchi, W. C.
2019A&A...632C...2M    Altcode:
  Based on observations collected at the European Southern Observatory,
  Chile (ESO IDs: 385.C-0886(A) and 087.C-0811(A)).

---------------------------------------------------------
Title: Spatially Resolving the Inner Gaseous Disc of the Herbig Star
    51 Oph through its CO Ro-vibration Emission
Authors: GRAVITY Collaboration; Abuter, R.; Accardo, M.; Adler,
   T.; Amorim, A.; Anugu, N.; Ávila, G.; Bauböck, M.; Benisty, M.;
   Berger, J. -P.; Bestenlehner, J. M.; Beust, H.; Blind, N.; Bonnefoy,
   M.; Bonnet, H.; Bourget, P.; Bouvier, J.; Brandner, W.; Brast,
   R.; Buron, A.; Burtscher, L.; Cantalloube, F.; Caratti O Garatti,
   A.; Caselli, P.; Cassaing, F.; Chapron, F.; Charnay, B.; Choquet,
   É.; Clénet, Y.; Collin, C.; Coudé Du Foresto, V.; Davies, R.;
   Deen, C.; Delplancke-Ströbele, F.; Dembet, R.; Derie, F.; de Wit,
   W. -J.; Dexter, J.; de Zeeuw, T.; Dougados, C.; Dubus, G.; Duvert,
   G.; Ebert, M.; Eckart, A.; Eisenhauer, F.; Esselborn, M.; Eupen, F.;
   Fédou, P.; Ferreira, M. C.; Finger, G.; Förster Schreiber, N. M.;
   Gao, F.; García Dabó, C. E.; Garcia Lopez, R.; Garcia, P. J. V.;
   Gendron, É.; Genzel, R.; Gerhard, O.; Gil, J. P.; Gillessen, S.;
   Gonté, F.; Gordo, P.; Gratadour, D.; Greenbaum, A.; Grellmann, R.;
   Grözinger, U.; Guajardo, P.; Guieu, S.; Habibi, M.; Haguenauer, P.;
   Hans, O.; Haubois, X.; Haug, M.; Haußmann, F.; Henning, T.; Hippler,
   S.; Hönig, S. F.; Horrobin, M.; Huber, A.; Hubert, Z.; Hubin, N.;
   Hummel, C. A.; Jakob, G.; Janssen, A.; Jimenez Rosales, A.; Jochum,
   L.; Jocou, L.; Kammerer, J.; Karl, M.; Kaufer, A.; Kellner, S.;
   Kendrew, S.; Kern, L.; Kervella, P.; Kiekebusch, M.; Kishimoto, M.;
   Klarmann, L.; Klein, R.; Köhler, R.; Kok, Y.; Kolb, J.; Koutoulaki,
   M.; Kulas, M.; Labadie, L.; Lacour, S.; Lagrange, A. -M.; Lapeyrère,
   V.; Laun, W.; Lazareff, B.; Le Bouquin, J. -B.; Léna, P.; Lenzen,
   R.; Lévêque, S.; Lin, C. -C.; Lippa, M.; Lutz, D.; Magnard, Y.;
   Maire, A. -L.; Mehrgan, L.; Mérand, A.; Millour, F.; Mollière,
   P.; Moulin, T.; Müller, A.; Müller, E.; Müller, F.; Netzer, H.;
   Neumann, U.; Nowak, M.; Oberti, S.; Ott, T.; Pallanca, L.; Panduro,
   J.; Pasquini, L.; Paumard, T.; Percheron, I.; Perraut, K.; Perrin, G.;
   Peterson, B. M.; Petrucci, P. -O.; Pflüger, A.; Pfuhl, O.; Phan Duc,
   T.; Pineda, J. E.; Plewa, P. M.; Popovic, D.; Pott, J. -U.; Prieto,
   A.; Pueyo, L.; Rabien, S.; Ramírez, A.; Ramos, J. R.; Rau, C.; Ray,
   T.; Riquelme, M.; Rodríguez-Coira, G.; Rohloff, R. -R.; Rouan, D.;
   Rousset, G.; Sanchez-Bermudez, J.; Schartmann, M.; Scheithauer,
   S.; Schöller, M.; Schuhler, N.; Segura-Cox, D.; Shangguan, J.;
   Shimizu, T. T.; Spyromilio, J.; Sternberg, A.; Stock, M. R.; Straub,
   O.; Straubmeier, C.; Sturm, E.; Suárez Valles, M.; Tacconi, L. J.;
   Thi, W. -F.; Tristram, K. R. W.; Valenzuela, J. J.; van Boekel, R.;
   van Dishoeck, E. F.; Vermot, P.; Vincent, F.; von Fellenberg, S.;
   Waisberg, I.; Wang, J. J.; Wank, I.; Weber, J.; Weigelt, G.; Widmann,
   F.; Wieprecht, E.; Wiest, M.; Wiezorrek, E.; Wittkowski, M.; Woillez,
   J.; Wolff, B.; Yang, P.; Yazici, S.; Ziegler, D.; Zins, G.
2019Msngr.178...40G    Altcode:
  Near-infrared interferometry gives us the opportunity to
  spatially resolve the circumstellar environment of young stars at
  sub-astronomical-unit (au) scales, which a standalone telescope could
  not reach. In particular, the sensitivity of GRAVITY on the VLTI allows
  us to spatially resolve the CO overtone emission at 2.3 microns. In
  this article, we present a new method of using the model of the CO
  spectrum to reconstruct the differential phase signal and extract the
  geometry and size of the emitting region.

---------------------------------------------------------
Title: Spatially Resolving the Quasar Broad Emission Line Region
Authors: GRAVITY Collaboration; Abuter, R.; Accardo, M.; Adler,
   T.; Amorim, A.; Anugu, N.; Ávila, G.; Bauböck, M.; Benisty, M.;
   Berger, J. -P.; Bestenlehner, J. M.; Beust, H.; Blind, N.; Bonnefoy,
   M.; Bonnet, H.; Bourget, P.; Bouvier, J.; Brandner, W.; Brast,
   R.; Buron, A.; Burtscher, L.; Cantalloube, F.; Caratti O Garatti,
   A.; Caselli, P.; Cassaing, F.; Chapron, F.; Charnay, B.; Choquet,
   É.; Clénet, Y.; Collin, C.; Coudé Du Foresto, V.; Davies, R.;
   Deen, C.; Delplancke-Ströbele, F.; Dembet, R.; Derie, F.; de Wit,
   W. -J.; Dexter, J.; de Zeeuw, T.; Dougados, C.; Dubus, G.; Duvert,
   G.; Ebert, M.; Eckart, A.; Eisenhauer, F.; Esselborn, M.; Eupen, F.;
   Fédou, P.; Ferreira, M. C.; Finger, G.; Förster Schreiber, N. M.;
   Gao, F.; García Dabó, C. E.; Garcia Lopez, R.; Garcia, P. J. V.;
   Gendron, É.; Genzel, R.; Gerhard, O.; Gil, J. P.; Gillessen, S.;
   Gonté, F.; Gordo, P.; Gratadour, D.; Greenbaum, A.; Grellmann, R.;
   Grözinger, U.; Guajardo, P.; Guieu, S.; Habibi, M.; Haguenauer, P.;
   Hans, O.; Haubois, X.; Haug, M.; Haußmann, F.; Henning, T.; Hippler,
   S.; Hönig, S. F.; Horrobin, M.; Huber, A.; Hubert, Z.; Hubin, N.;
   Hummel, C. A.; Jakob, G.; Janssen, A.; Jimenez Rosales, A.; Jochum,
   L.; Jocou, L.; Kammerer, J.; Karl, M.; Kaufer, A.; Kellner, S.;
   Kendrew, S.; Kern, L.; Kervella, P.; Kiekebusch, M.; Kishimoto, M.;
   Klarmann, L.; Klein, R.; Köhler, R.; Kok, Y.; Kolb, J.; Koutoulaki,
   M.; Kulas, M.; Labadie, L.; Lacour, S.; Lagrange, A. -M.; Lapeyrère,
   V.; Laun, W.; Lazareff, B.; Le Bouquin, J. -B.; Léna, P.; Lenzen,
   R.; Lévêque, S.; Lin, C. -C.; Lippa, M.; Lutz, D.; Magnard, Y.;
   Maire, A. -L.; Mehrgan, L.; Mérand, A.; Millour, F.; Mollière,
   P.; Moulin, T.; Müller, A.; Müller, E.; Müller, F.; Netzer, H.;
   Neumann, U.; Nowak, M.; Oberti, S.; Ott, T.; Pallanca, L.; Panduro,
   J.; Pasquini, L.; Paumard, T.; Percheron, I.; Perraut, K.; Perrin, G.;
   Peterson, B. M.; Petrucci, P. -O.; Pflüger, A.; Pfuhl, O.; Phan Duc,
   T.; Pineda, J. E.; Plewa, P. M.; Popovic, D.; Pott, J. -U.; Prieto,
   A.; Pueyo, L.; Rabien, S.; Ramírez, A.; Ramos, J. R.; Rau, C.; Ray,
   T.; Riquelme, M.; Rodríguez-Coira, G.; Rohloff, R. -R.; Rouan, D.;
   Rousset, G.; Sanchez-Bermudez, J.; Schartmann, M.; Scheithauer,
   S.; Schöller, M.; Schuhler, N.; Segura-Cox, D.; Shangguan, J.;
   Shimizu, T. T.; Spyromilio, J.; Sternberg, A.; Stock, M. R.; Straub,
   O.; Straubmeier, C.; Sturm, E.; Suárez Valles, M.; Tacconi, L. J.;
   Thi, W. -F.; Tristram, K. R. W.; Valenzuela, J. J.; van Boekel, R.;
   van Dishoeck, E. F.; Vermot, P.; Vincent, F.; von Fellenberg, S.;
   Waisberg, I.; Wang, J. J.; Wank, I.; Weber, J.; Weigelt, G.; Widmann,
   F.; Wieprecht, E.; Wiest, M.; Wiezorrek, E.; Wittkowski, M.; Woillez,
   J.; Wolff, B.; Yang, P.; Yazici, S.; Ziegler, D.; Zins, G.
2019Msngr.178...20A    Altcode:
  The angular resolution of the Very Large Telescope Interferometer
  (VLTI) and the excellent sensitivity of GRAVITY have led to the
  first detection of spatially resolved kinematics of high velocity
  atomic gas near an accreting super- massive black hole, revealing
  rotation on sub-parsec scales in the quasar 3C 273 at a distance of
  550 Mpc. The observations can be explained as the result of circular
  orbits in a thick disc configuration around a 300 million solar mass
  black hole. Within an ongoing Large Programme, this capability will
  be used to study the kinematics of atomic gas and its relation to hot
  dust in a sample of quasars and Seyfert galaxies. We will measure a
  new radius-luminosity relation from spatially resolved data and test
  the current methods used to measure black hole mass in large surveys.

---------------------------------------------------------
Title: Multiple Star Systems in the Orion Nebula
Authors: GRAVITY Collaboration; Abuter, R.; Accardo, M.; Adler,
   T.; Amorim, A.; Anugu, N.; Ávila, G.; Bauböck, M.; Benisty, M.;
   Berger, J. -P.; Bestenlehner, J. M.; Beust, H.; Blind, N.; Bonnefoy,
   M.; Bonnet, H.; Bourget, P.; Bouvier, J.; Brandner, W.; Brast,
   R.; Buron, A.; Burtscher, L.; Cantalloube, F.; Caratti O Garatti,
   A.; Caselli, P.; Cassaing, F.; Chapron, F.; Charnay, B.; Choquet,
   É.; Clénet, Y.; Collin, C.; Coudé Du Foresto, V.; Davies, R.;
   Deen, C.; Delplancke-Ströbele, F.; Dembet, R.; Derie, F.; de Wit,
   W. -J.; Dexter, J.; de Zeeuw, T.; Dougados, C.; Dubus, G.; Duvert,
   G.; Ebert, M.; Eckart, A.; Eisenhauer, F.; Esselborn, M.; Eupen, F.;
   Fédou, P.; Ferreira, M. C.; Finger, G.; Förster Schreiber, N. M.;
   Gao, F.; García Dabó, C. E.; Garcia Lopez, R.; Garcia, P. J. V.;
   Gendron, É.; Genzel, R.; Gerhard, O.; Gil, J. P.; Gillessen, S.;
   Gonté, F.; Gordo, P.; Gratadour, D.; Greenbaum, A.; Grellmann, R.;
   Grözinger, U.; Guajardo, P.; Guieu, S.; Habibi, M.; Haguenauer, P.;
   Hans, O.; Haubois, X.; Haug, M.; Haußmann, F.; Henning, T.; Hippler,
   S.; Hönig, S. F.; Horrobin, M.; Huber, A.; Hubert, Z.; Hubin, N.;
   Hummel, C. A.; Jakob, G.; Janssen, A.; Jimenez Rosales, A.; Jochum,
   L.; Jocou, L.; Kammerer, J.; Karl, M.; Kaufer, A.; Kellner, S.;
   Kendrew, S.; Kern, L.; Kervella, P.; Kiekebusch, M.; Kishimoto, M.;
   Klarmann, L.; Klein, R.; Köhler, R.; Kok, Y.; Kolb, J.; Koutoulaki,
   M.; Kulas, M.; Labadie, L.; Lacour, S.; Lagrange, A. -M.; Lapeyrère,
   V.; Laun, W.; Lazareff, B.; Le Bouquin, J. -B.; Léna, P.; Lenzen,
   R.; Lévêque, S.; Lin, C. -C.; Lippa, M.; Lutz, D.; Magnard, Y.;
   Maire, A. -L.; Mehrgan, L.; Mérand, A.; Millour, F.; Mollière,
   P.; Moulin, T.; Müller, A.; Müller, E.; Müller, F.; Netzer, H.;
   Neumann, U.; Nowak, M.; Oberti, S.; Ott, T.; Pallanca, L.; Panduro,
   J.; Pasquini, L.; Paumard, T.; Percheron, I.; Perraut, K.; Perrin, G.;
   Peterson, B. M.; Petrucci, P. -O.; Pflüger, A.; Pfuhl, O.; Phan Duc,
   T.; Pineda, J. E.; Plewa, P. M.; Popovic, D.; Pott, J. -U.; Prieto,
   A.; Pueyo, L.; Rabien, S.; Ramírez, A.; Ramos, J. R.; Rau, C.; Ray,
   T.; Riquelme, M.; Rodríguez-Coira, G.; Rohloff, R. -R.; Rouan, D.;
   Rousset, G.; Sanchez-Bermudez, J.; Schartmann, M.; Scheithauer,
   S.; Schöller, M.; Schuhler, N.; Segura-Cox, D.; Shangguan, J.;
   Shimizu, T. T.; Spyromilio, J.; Sternberg, A.; Stock, M. R.; Straub,
   O.; Straubmeier, C.; Sturm, E.; Suárez Valles, M.; Tacconi, L. J.;
   Thi, W. -F.; Tristram, K. R. W.; Valenzuela, J. J.; van Boekel, R.;
   van Dishoeck, E. F.; Vermot, P.; Vincent, F.; von Fellenberg, S.;
   Waisberg, I.; Wang, J. J.; Wank, I.; Weber, J.; Weigelt, G.; Widmann,
   F.; Wieprecht, E.; Wiest, M.; Wiezorrek, E.; Wittkowski, M.; Woillez,
   J.; Wolff, B.; Yang, P.; Yazici, S.; Ziegler, D.; Zins, G.
2019Msngr.178...36G    Altcode:
  GRAVITY observations reveal that most massive stars in the
  Orion Trapezium cluster live in multiple systems. Our deep,
  milliarcsecond-resolution interferometry fills the gap at 1-100
  astronomical units (au), which is not accessible to traditional imaging
  and spectroscopy, but is crucial to uncovering the mystery of high-mass
  star formation.The new observations find a significantly higher
  companion fraction than earlier studies of mostly OB associations. The
  observed distribution of mass ratios declines steeply with mass and
  follows a Salpeter power-law initial mass function. The observations
  therefore exclude stellar mergers as the dominant formation mechanism
  for massive stars in Orion.

---------------------------------------------------------
Title: Images at the Highest Angular Resolution with GRAVITY: The
    Case of η Carinae
Authors: GRAVITY Collaboration; Abuter, R.; Accardo, M.; Adler,
   T.; Amorim, A.; Anugu, N.; Ávila, G.; Bauböck, M.; Benisty, M.;
   Berger, J. -P.; Bestenlehner, J. M.; Beust, H.; Blind, N.; Bonnefoy,
   M.; Bonnet, H.; Bourget, P.; Bouvier, J.; Brandner, W.; Brast,
   R.; Buron, A.; Burtscher, L.; Cantalloube, F.; Caratti O Garatti,
   A.; Caselli, P.; Cassaing, F.; Chapron, F.; Charnay, B.; Choquet,
   É.; Clénet, Y.; Collin, C.; Coudé Du Foresto, V.; Davies, R.;
   Deen, C.; Delplancke-Ströbele, F.; Dembet, R.; Derie, F.; de Wit,
   W. -J.; Dexter, J.; de Zeeuw, T.; Dougados, C.; Dubus, G.; Duvert,
   G.; Ebert, M.; Eckart, A.; Eisenhauer, F.; Esselborn, M.; Eupen, F.;
   Fédou, P.; Ferreira, M. C.; Finger, G.; Förster Schreiber, N. M.;
   Gao, F.; García Dabó, C. E.; Garcia Lopez, R.; Garcia, P. J. V.;
   Gendron, É.; Genzel, R.; Gerhard, O.; Gil, J. P.; Gillessen, S.;
   Gonté, F.; Gordo, P.; Gratadour, D.; Greenbaum, A.; Grellmann, R.;
   Grözinger, U.; Guajardo, P.; Guieu, S.; Habibi, M.; Haguenauer, P.;
   Hans, O.; Haubois, X.; Haug, M.; Haußmann, F.; Henning, T.; Hippler,
   S.; Hönig, S. F.; Horrobin, M.; Huber, A.; Hubert, Z.; Hubin, N.;
   Hummel, C. A.; Jakob, G.; Janssen, A.; Jimenez Rosales, A.; Jochum,
   L.; Jocou, L.; Kammerer, J.; Karl, M.; Kaufer, A.; Kellner, S.;
   Kendrew, S.; Kern, L.; Kervella, P.; Kiekebusch, M.; Kishimoto, M.;
   Klarmann, L.; Klein, R.; Köhler, R.; Kok, Y.; Kolb, J.; Koutoulaki,
   M.; Kulas, M.; Labadie, L.; Lacour, S.; Lagrange, A. -M.; Lapeyrère,
   V.; Laun, W.; Lazareff, B.; Le Bouquin, J. -B.; Léna, P.; Lenzen,
   R.; Lévêque, S.; Lin, C. -C.; Lippa, M.; Lutz, D.; Magnard, Y.;
   Maire, A. -L.; Mehrgan, L.; Mérand, A.; Millour, F.; Mollière,
   P.; Moulin, T.; Müller, A.; Müller, E.; Müller, F.; Netzer, H.;
   Neumann, U.; Nowak, M.; Oberti, S.; Ott, T.; Pallanca, L.; Panduro,
   J.; Pasquini, L.; Paumard, T.; Percheron, I.; Perraut, K.; Perrin, G.;
   Peterson, B. M.; Petrucci, P. -O.; Pflüger, A.; Pfuhl, O.; Phan Duc,
   T.; Pineda, J. E.; Plewa, P. M.; Popovic, D.; Pott, J. -U.; Prieto,
   A.; Pueyo, L.; Rabien, S.; Ramírez, A.; Ramos, J. R.; Rau, C.; Ray,
   T.; Riquelme, M.; Rodríguez-Coira, G.; Rohloff, R. -R.; Rouan, D.;
   Rousset, G.; Sanchez-Bermudez, J.; Schartmann, M.; Scheithauer,
   S.; Schöller, M.; Schuhler, N.; Segura-Cox, D.; Shangguan, J.;
   Shimizu, T. T.; Spyromilio, J.; Sternberg, A.; Stock, M. R.; Straub,
   O.; Straubmeier, C.; Sturm, E.; Suárez Valles, M.; Tacconi, L. J.;
   Thi, W. -F.; Tristram, K. R. W.; Valenzuela, J. J.; van Boekel, R.;
   van Dishoeck, E. F.; Vermot, P.; Vincent, F.; von Fellenberg, S.;
   Waisberg, I.; Wang, J. J.; Wank, I.; Weber, J.; Weigelt, G.; Widmann,
   F.; Wieprecht, E.; Wiest, M.; Wiezorrek, E.; Wittkowski, M.; Woillez,
   J.; Wolff, B.; Yang, P.; Yazici, S.; Ziegler, D.; Zins, G.
2019Msngr.178...31G    Altcode:
  The main goal of an interferometer is to probe the physics of
  astronomical objects at the highest possible angular resolution. The
  most intuitive way of doing this is by reconstructing images from the
  interferometric data. GRAVITY at the Very Large Telescope Interferometer
  (VLTI) has proven to be a fantastic instrument in this endeavour. In
  this article, we describe the reconstruction of the wind-wind collision
  cavity of the massive binary η Car with GRAVITY across two spectral
  lines: HeI and Brγ.

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Title: Probing the Discs of Herbig Ae/Be Stars at Terrestrial Orbits
Authors: GRAVITY Collaboration; Abuter, R.; Accardo, M.; Adler,
   T.; Amorim, A.; Anugu, N.; Ávila, G.; Bauböck, M.; Benisty, M.;
   Berger, J. -P.; Bestenlehner, J. M.; Beust, H.; Blind, N.; Bonnefoy,
   M.; Bonnet, H.; Bourget, P.; Bouvier, J.; Brandner, W.; Brast,
   R.; Buron, A.; Burtscher, L.; Cantalloube, F.; Caratti O Garatti,
   A.; Caselli, P.; Cassaing, F.; Chapron, F.; Charnay, B.; Choquet,
   É.; Clénet, Y.; Collin, C.; Coudé Du Foresto, V.; Davies, R.;
   Deen, C.; Delplancke-Ströbele, F.; Dembet, R.; Derie, F.; de Wit,
   W. -J.; Dexter, J.; de Zeeuw, T.; Dougados, C.; Dubus, G.; Duvert,
   G.; Ebert, M.; Eckart, A.; Eisenhauer, F.; Esselborn, M.; Eupen, F.;
   Fédou, P.; Ferreira, M. C.; Finger, G.; Förster Schreiber, N. M.;
   Gao, F.; García Dabó, C. E.; Garcia Lopez, R.; Garcia, P. J. V.;
   Gendron, É.; Genzel, R.; Gerhard, O.; Gil, J. P.; Gillessen, S.;
   Gonté, F.; Gordo, P.; Gratadour, D.; Greenbaum, A.; Grellmann, R.;
   Grözinger, U.; Guajardo, P.; Guieu, S.; Habibi, M.; Haguenauer, P.;
   Hans, O.; Haubois, X.; Haug, M.; Haußmann, F.; Henning, T.; Hippler,
   S.; Hönig, S. F.; Horrobin, M.; Huber, A.; Hubert, Z.; Hubin, N.;
   Hummel, C. A.; Jakob, G.; Janssen, A.; Jimenez Rosales, A.; Jochum,
   L.; Jocou, L.; Kammerer, J.; Karl, M.; Kaufer, A.; Kellner, S.;
   Kendrew, S.; Kern, L.; Kervella, P.; Kiekebusch, M.; Kishimoto, M.;
   Klarmann, L.; Klein, R.; Köhler, R.; Kok, Y.; Kolb, J.; Koutoulaki,
   M.; Kulas, M.; Labadie, L.; Lacour, S.; Lagrange, A. -M.; Lapeyrère,
   V.; Laun, W.; Lazareff, B.; Le Bouquin, J. -B.; Léna, P.; Lenzen,
   R.; Lévêque, S.; Lin, C. -C.; Lippa, M.; Lutz, D.; Magnard, Y.;
   Maire, A. -L.; Mehrgan, L.; Mérand, A.; Millour, F.; Mollière,
   P.; Moulin, T.; Müller, A.; Müller, E.; Müller, F.; Netzer, H.;
   Neumann, U.; Nowak, M.; Oberti, S.; Ott, T.; Pallanca, L.; Panduro,
   J.; Pasquini, L.; Paumard, T.; Percheron, I.; Perraut, K.; Perrin, G.;
   Peterson, B. M.; Petrucci, P. -O.; Pflüger, A.; Pfuhl, O.; Phan Duc,
   T.; Pineda, J. E.; Plewa, P. M.; Popovic, D.; Pott, J. -U.; Prieto,
   A.; Pueyo, L.; Rabien, S.; Ramírez, A.; Ramos, J. R.; Rau, C.; Ray,
   T.; Riquelme, M.; Rodríguez-Coira, G.; Rohloff, R. -R.; Rouan, D.;
   Rousset, G.; Sanchez-Bermudez, J.; Schartmann, M.; Scheithauer,
   S.; Schöller, M.; Schuhler, N.; Segura-Cox, D.; Shangguan, J.;
   Shimizu, T. T.; Spyromilio, J.; Sternberg, A.; Stock, M. R.; Straub,
   O.; Straubmeier, C.; Sturm, E.; Suárez Valles, M.; Tacconi, L. J.;
   Thi, W. -F.; Tristram, K. R. W.; Valenzuela, J. J.; van Boekel, R.;
   van Dishoeck, E. F.; Vermot, P.; Vincent, F.; von Fellenberg, S.;
   Waisberg, I.; Wang, J. J.; Wank, I.; Weber, J.; Weigelt, G.; Widmann,
   F.; Wieprecht, E.; Wiest, M.; Wiezorrek, E.; Wittkowski, M.; Woillez,
   J.; Wolff, B.; Yang, P.; Yazici, S.; Ziegler, D.; Zins, G.
2019Msngr.178...38G    Altcode:
  More than 4000 exoplanets are known to date in systems that differ
  greatly from our Solar System. In particular, inner exoplanets tend
  to follow orbits around their parent star that are much more compact
  than that of Earth. These systems are also extremely diverse, covering
  a range of intrinsic properties. Studying the main physi- cal processes
  at play in the innermost regions of the protoplanetary discs is crucial
  to understanding how these planets form and migrate so close to their
  host. With GRAVITY, we focused on the study of near-infrared emission
  of a sample of young intermediate- mass stars, the Herbig Ae/Be stars.

---------------------------------------------------------
Title: Mid-infrared evolution of η Carinae from 1968 to 2018
Authors: Mehner, A.; de Wit, W. -J.; Asmus, D.; Morris, P. W.;
   Agliozzo, C.; Barlow, M. J.; Gull, T. R.; Hillier, D. J.; Weigelt, G.
2019A&A...630L...6M    Altcode: 2019arXiv190809154M
  η Car is one of the most luminous and massive stars in our Galaxy
  and is the brightest mid-IR source in the sky outside our solar
  system. Since the late 1990s, the central source has dramatically
  brightened at UV and optical wavelengths. This might be explained by
  a decrease in circumstellar dust extinction. We aim to establish the
  mid-IR flux evolution and further our understanding of the star's UV
  and optical brightening. Mid-IR images from 8-20 μm were obtained
  in 2018 with VISIR at the Very Large Telescope. Archival data from
  2003 and 2005 were retrieved from the ESO Science Archive Facility,
  and historical records were collected from publications. We present
  mid-IR images of η Car with the highest angular resolution to date
  at the corresponding wavelengths (≥0.22″). We reconstruct the
  mid-IR evolution of the spectral energy distribution of the spatially
  integrated Homunculus nebula from 1968 to 2018 and find no long-term
  changes. The bolometric luminosity of η Car has been stable over
  the past five decades. We do not observe a long-term decrease in the
  mid-IR flux densities that could be associated with the brightening at
  UV and optical wavelengths, but circumstellar dust must be declining
  in our line of sight alone. Short-term flux variations within about
  25% of the mean levels could be present. <P />Based on observations
  collected at ESO's Very Large Telescope under Prog-IDs: 074.A-9016(A),
  0101.D-0077(A). Based on observations made with ESO Telescopes at
  the La Silla Paranal Observatory under Prog-IDs: 60.A-9126(A,C,E,I),
  69.D-0304(B),71.D-0049(A).

---------------------------------------------------------
Title: Setting the Stage for the Planet Formation Imager
Authors: Monnier, John; Aarnio, Alicia; Absil, Olivier; Alonso-Herrero,
   Almudena; Anugu, Narsireddy; Baines, Ellyn; Bayo, Amelia; Berger,
   Jean-Philippe; Danchi, William; Elias, Nicholas; Gai, Mario; Gandhi,
   Poshak; Gardner, Tyler; Gies, Douglas; Gonzalez, Jean-François;
   Haniff, Chris; Hoenig, Sebastian; Ireland, Michael; Isella, Andrea;
   Kane, Stephen; Kirchschlager, Florian; Kishimoto, Makoto; Klarmann,
   Lucia; Kluska, Jacques; Kraus, Stefan; Labadie, Lucas; Le Bouquin,
   Jean-Baptiste; Leisawitz, David; Linz, Hendrik; Mennesson, Bertrand;
   Morlok, Andreas; Norris, Ryan; Pope, Benjamin; Quiroga-Nuñez, Luis
   Henry; Rau, Gioia; Regaly, Zsolt; Reynolds, Mark; Riva, Alberto;
   Roettenbacher, Rachael; Schaefer, Gail; Setterholm, Benjamin; Smith,
   Michael; Stencel, Robert; ten Brummelaar, Theo; Tristram, Konrad R. W.;
   van Belle, Gerard; Vasisht, Gautam; Weigelt, Gerd; Wittkowski, Markus
2019BAAS...51g.133M    Altcode: 2019astro2020U.133M
  The Planet Formation Imager (PFI) is a next-generation infrared
  interferometer designed to image the active phases of planet formation
  and to take planetary “snapshots” of young systems. We outline
  a technology plan to make PFI a reality, identifying a potential
  breakthrough opportunity for making inexpensive large telescopes
  available.

---------------------------------------------------------
Title: Infrared Interferometric Three-dimensional Diagnosis of the
    Atmospheric Dynamics of the AGB Star R Dor with VLTI/AMBER
Authors: Ohnaka, Keiichi; Weigelt, Gerd; Hofmann, Karl-Heinz
2019ApJ...883...89O    Altcode: 2019arXiv190806997O
  The mechanism of mass loss in late evolutionary stages of low-
  and intermediate-mass stars is not yet well understood. Therefore,
  it is crucial to study the dynamics of the region within a few R
  <SUB>⋆</SUB>, where the wind acceleration is considered to take
  place. We present a three-dimensional diagnosis of the atmospheric
  dynamics of the closest asymptotic giant branch star R Dor from the low
  photospheric layers to the extended outer atmosphere, for the first time
  for a star other than the Sun. The images reconstructed with a spatial
  resolution of 6.8 mas—seven times finer than the star’s angular
  diameter of 51.2 mas in the continuum—using the AMBER instrument at
  the Very Large Telescope Interferometer show a large, bright region over
  the surface of the star and an extended atmosphere. The velocity-field
  maps over the star’s surface and atmosphere obtained from the Mg
  and H<SUB>2</SUB>O lines near 2.3 μm forming at atmospheric heights
  below ∼1.5 R <SUB>⋆</SUB> show little systematic motion beyond the
  measurement uncertainty of 1.7 km s<SUP>-1</SUP>. In marked contrast,
  the velocity-field map obtained from the CO first overtone lines reveals
  systematic outward motion at 7-15 km s<SUP>-1</SUP> in the extended
  outer atmosphere at a height of ∼1.8 R <SUB>⋆</SUB>. Given the
  detection of dust formation at ∼1.5 R <SUB>⋆</SUB>, the strong
  acceleration of material between ∼1.5 and 1.8 R <SUB>⋆</SUB>
  may be caused by the radiation pressure on dust grains. However,
  we cannot yet exclude the possibility that the outward motion may
  be intermittent, caused by ballistic motion due to convection and/or
  pulsation. <P />Based on AMBER observations made with the Very Large
  Telescope and Very Large Telescope Interferometer of the European
  Southern Observatory. Program ID: 092.D-0456(A), 092.D-0465(A/B).

---------------------------------------------------------
Title: A Realistic Roadmap to Formation Flying Space Interferometry
Authors: Monnier, John; Aarnio, Alicia; Absil, Olivier; Anugu,
   Narsireddy; Baines, Ellyn; Bayo, Amelia; Berger, Jean-Philippe;
   Cleeves, L. Ilsedore; Dale, Daniel; Danchi, William; de Wit, W. J.;
   Defrère, Denis; Domagal-Goldman, Shawn; Elvis, Martin; Froebrich,
   Dirk; Gai, Mario; Gandhi, Poshak; Garcia, Paulo; Gardner, Tyler; Gies,
   Douglas; Gonzalez, Jean-François; Gunter, Brian; Hoenig, Sebastian;
   Ireland, Michael; Jorgensen, Anders M.; Kishimoto, Makoto; Klarmann,
   Lucia; Kloppenborg, Brian; Kluska, Jacques; Knight, J. Scott; Kral,
   Quentin; Kraus, Stefan; Labadie, Lucas; Lawson, Peter; Le Bouquin,
   Jean-Baptiste; Leisawitz, David; Lightsey, E. Glenn; Linz, Hendrik;
   Lipscy, Sarah; MacGregor, Meredith; Matsuo, Hiroshi; Mennesson,
   Bertrand; Meyer, Michael; Michael, Ernest A.; Millour, Florentin;
   Mozurkewich, David; Norris, Ryan; Ollivier, Marc; Packham, Chris;
   Petrov, Romain; Pueyo, Laurent; Pope, Benjamin; Quanz, Sascha; Ragland,
   Sam; Rau, Gioia; Regaly, Zsolt; Riva, Alberto; Roettenbacher, Rachael;
   Savini, Giorgio; Setterholm, Benjamin; Sewilo, Marta; Smith, Michael;
   Spencer, Locke; ten Brummelaar, Theo; Turner, Neal; van Belle, Gerard;
   Weigelt, Gerd; Wittkowski, Markus
2019BAAS...51g.153M    Altcode: 2019astro2020U.153M
  The ultimate astronomical observatory would be a formation flying
  space interferometer, combining sensitivity and stability with high
  angular resolution. The smallSat revolution offers a new and maturing
  prototyping platform for space interferometry and we put forward a
  realistic plan for achieving first stellar fringes in space by 2030.

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Title: Eta Carinae: Taking the Plunge
Authors: Corcoran, Michael F.; Damineli, Augusto; Espinoza, David;
   Gull, Theodore Raymond; Hamaguchi, Kenji; Hillier, D. John; Madura,
   Thomas I.; Moffat, Anthony F. J.; Petre, Robert; Pittard, Julian M.;
   Richardson, Noel D.; Russell, Christopher Michael Post; Weigelt, Gerd
2019hst..prop15992C    Altcode:
  Eta Carinae is the nearest superluminous binary system we can easily
  study. Over the past 20 years the HETGS has been a key to unlocking
  the dynamics of the wind-wind collision and the nature of the hidden
  companion star. The AO 21 interval includes the next periastron
  passage, offering us a view of the hot gas in the wind-wind bow shock
  as it plunges towards the primary. We request Chandra and HST imaging
  spectrometry to uniquely probe the wind-wind shock on scales from the
  stellar separation to 100s of AU. These observations and our approved
  AO20 HETG Eta Car observations (not yet obtained),with new imaging
  with VLTI/MATISSE, and previous X-ray spectra from Chandra and other
  instruments will provide a detailed view of the colliding wind shock
  structure and the nature of the companion. The four HST/STIS orbits are
  committed to monitor the FUV spectral changes as the X-ray flux peaks,
  then drops through the minimum.

---------------------------------------------------------
Title: Imaging the Key Stages of Planet Formation
Authors: Monnier, John; Rau, Gioia; Bermudez, Joel Sanchez; Ragland,
   Sam; Akeson, Rachel; Duchene, Gaspard; van Belle, Gerard; Norris, Ryan;
   Gordon, Kathryn; Defrère, Denis; Kluska, Jacques; Ridgway, Stephen;
   Le Bouquin, Jean-Baptiste; Anugu, Narsireddy; Scott, Nicholas; Kane,
   Stephen; Richardson, Noel D.; Regaly, Zsolt; Zhu, Zhaohuan; Vasisht,
   Gautam; Stassun, Keivan G.; Andrews, Sean; Lacour, Sylvestre; Weigelt,
   Gerd; Turner, Neal; Adams, Fred C.; Gies, Douglas; Calvet, Nuria;
   Espaillat, Catherine; Millan-Gabet, Rafael; Gardner, Tyler; Packham,
   Chris; Gai, Mario; Kral, Quentin; Berger, Jean-Philippe; Linz,
   Hendrik; Klarmann, Lucia; Bate, Matthew; Bae, Jaehan; Lopez, Rebeca
   Garcia; Garufi, Antonio; Baron, Fabien; Kama, Mihkel; Wilner, David;
   Hartmann, Lee; Kishimoto, Makoto; Olofsson, Johan; McClure, Melissa;
   Haniff, Chris; Hoenig, Sebastian; Line, Michael; Petrov, Romain G.;
   Smith, Michael; ten Brummelaar, Theo; De Furio, Matthew; Koutoulaki,
   Maria; Rinehart, Stephen; Leisawitz, David; Danchi, William; Huber,
   Daniel; Zhang, Ke; Pope, Benjamin; Ireland, Michael; Kraus, Stefan;
   Isella, Andrea; Setterholm, Benjamin; White, Russel
2019BAAS...51c.498M    Altcode: 2019astro2020T.498M
  In this white paper, we explore how higher angular resolution beyond
  ALMA and 8m-class telescopes can extend our understanding of the
  key stages of planet formation, to resolve accreting circumplanetary
  disks themselves, and to watch planets forming in situ for the nearest
  star-forming regions.

---------------------------------------------------------
Title: The Future of Exoplanet Direct Detection
Authors: Monnier, John; Rau, Gioia; Baines, Ellyn K.; Sanchez-Bermudez,
   Joel; Elvis, Martin; Ragland, Sam; Akeson, Rachel; van Belle, Gerard;
   Norris, Ryan; Gordon, Kathryn; Defrère, Denis; Ridgway, Stephen;
   Le Bouquin, Jean-Baptiste; Anugu, Narsireddy; Scott, Nicholas; Kane,
   Stephen; Richardson, Noel; Regaly, Zsolt; Zhu, Zhaohuan; Chiavassa,
   Andrea; Vasisht, Gautam; Stassun, Keivan G.; Dong, Chuanfei; Absil,
   Olivier; Lacour, Sylvestre; Weigelt, Gerd; Gies, Douglas; Adams, Fred
   C.; Calvet, Nuria; Quanz, Sascha P.; Espaillat, Catherine; Gardner,
   Tyler; Greenbaum, Alexandra; Millan-Gabet, Rafael; Packham, Chris; Gai,
   Mario; Kral, Quentin; Berger, Jean-Philippe; Linz, Hendrik; Klarmann,
   Lucia; Bae, Jaehan; Lopez Garcia, Rebeca; Alexandre, Gallenne; Baron,
   Fabien; Hartmann, Lee; Kishimoto, Makoto; McClure, Melissa; Olofsson,
   Johan; Haniff, Chris; Line, Michael; Petrov, Romain G.; Smith, Michael;
   Hummel, Christian; ten Brummelaar, Theo; De Furio, Matthew; Rinehart,
   Stephen; Leisawitz, David; Danchi, William; Huber, Daniel; Wishnow,
   Edward; Mourard, Denis; Pope, Benjamin; Ireland, Michael; Kraus,
   Stefan; Setterholm, Benjamin; White, Russel
2019BAAS...51c.514M    Altcode: 2019astro2020T.514M
  Diffraction fundamentally limits our ability to image and characterize
  exoplanets. Interferometry offers some advantages in exoplanet detection
  and characterization and we explore in this white paper some of the
  potential scientific breakthroughs possible.

---------------------------------------------------------
Title: VizieR Online Data Catalog: The LEECH exoplanet imaging survey
    (Stone+, 2018)
Authors: Stone, J. M.; Skemer, A. J.; Hinz, P. M.; Bonavita, M.;
   Kratter, K. M.; Maire, A. -L.; Defrere, D.; Bailey, V. P.; Spalding,
   E.; Leisenring, J. M.; Desidera, S.; Bonnefoy, M.; Biller, B.;
   Woodward, C. E.; Henning, T.; Skrutskie, M. F.; Eisner, J. A.; Crepp,
   J. R.; Patience, J.; Weigelt, G.; De Rosa, R. J.; Schlieder, J.;
   Brandner, W.; Apai, D.; Su, K.; Ertel, S.; Ward-Duong, K.; Morzinski,
   K. M.; Schertl, D.; Hofmann, K. -H.; Close, L. M.; Brems, S. S.;
   Fortney, J. J.; Oza, A.; Buenzli, E.; Bass, B.
2019yCat..51560286S    Altcode:
  Our survey was conducted using the LBTI instrument (Hinz et
  al. 2016SPIE.9907E..04H) at the LBT on Mt. Graham in southern
  Arizona. LBTI is located between the two 8.4 m primary mirrors of
  the LBT at the combined bent Gregorian focus. Light from each side
  of the telescope is corrected for atmospheric aberrations using the
  LBTI AO system (Bailey et al. 2014SPIE.9148E..03B) and delivered
  into the instrument via a cryogenic beam combiner where it is then
  directed to individual science modules. For LEECH observations, we
  used the LMIRcam module of LBTI, which is optimized for work in the
  thermal-infrared (3-5 μm; Skrutskie et al. 2010SPIE.7735E..3HS;
  Leisenring et al. 2012SPIE.8446E..4FL). LBTI does not include an
  instrument derotator, so images always rotate with respect to the
  detector pixels as the parallactic angle changes. During the course of
  the LEECH survey, LMIRcam provided an 11"x11" field of view, reading
  a 1024x1024 subsection of its 5.2 μm cutoff HAWAII-2RG detector (the
  full 2048x2048 extent of the array now provides a 20"x20" field of view
  with LMIRcam). LMIRcam was designed with a plate scale to accommodate
  imaging interferometry at the full resolution of the 23 m LBT (10.7
  mas/pixel). However, for LEECH observations, we operated without
  overlapping and interfering the beams of the two primary mirrors,
  opting to make two images of each source on the detector instead. In
  this mode, the L' images from each side were oversampled, providing
  added robustness to bad pixels and cosmic rays. <P />(4 data files).

---------------------------------------------------------
Title: Compact gaseous accretion disk in Keplerian rotation around
    MWC 147
Authors: Hone, Edward; Kraus, Stefan; Davies, Claire L.; Kreplin,
   Alexander; Monnier, John D.; Baron, Fabien; Millan-Gabet, Rafael;
   Hofmann, Karl-Heinz; Schertl, Dieter; Sturmann, Judit; Sturmann,
   Laszlo; Ten Brummelaar, Theo; Weigelt, Gerd
2019A&A...623A..38H    Altcode: 2019arXiv190104394H
  Context. The disks around some Herbig Be stars have been observed to
  be more compact than the expected dust sublimation radius for such
  objects. Highly refractory dust grains and optically thick gas emission
  have been proposed as possible explanations for this phenomenon. <BR
  /> Aims: Previously, the "undersized" Herbig Be star MWC 147 was
  observed with interferometry, and the results indicated a presence of
  a compact gaseous disk based on the measured wavelength-dependence of
  near-infrared or mid-infrared visibilities. Our aim is to search for
  direct evidence for the presence of hot gas inside of the expected
  dust sublimation radius of MWC 147. <BR /> Methods: By combining
  VLTI/AMBER spectro-interferometry (R = 12 000) with CRIRES spectroscopy
  (R = 100 000) we can both spectrally and spatially resolve the Brγ
  line-emitting gas around MWC 147. Additionally, using CHARA/CLIMB
  enables us to achieve baseline lengths up to 330 m, offering 2 times
  higher angular resolution (and a better position angle coverage)
  than has previously been achieved with interferometry for MWC 147. To
  model the continuum we fit our AMBER and CLIMB measurements with a
  geometric model of an inclined Gaussian distribution as well as a ring
  model. We fit our high-resolution spectra and spectro-interferometric
  data with a kinematic model of a disk in Keplerian rotation. <BR
  /> Results: Our interferometric visibility modelling of MWC 147
  indicates the presence of a compact continuum disk with a close
  to face-on orientation. We model the continuum with an inclined
  Gaussian and a ring with a radius of 0.60 mas (0.39 au), which is well
  within the expected dust sublimation radius of 1.52 au. We detect no
  significant change in the measured visibilities across the Brγ line,
  indicating that the line-emitting gas is located in the same region
  as the continuum-emitting disk. Using our differential phase data
  we construct photocentre displacement vectors across the Brγ line,
  revealing a velocity profile consistent with a rotating disk. We fit our
  AMBER spectro-interferometry data with a kinematic model of a disk in
  Keplerian rotation, where both the line-emitting and continuum-emitting
  components of the disk originate from the same compact region close to
  the central star. The presence of line-emitting gas in the same region
  as the K-band continuum supports the interpretation that the K-band
  continuum traces an optically thick gas disk. <BR /> Conclusions:
  Our spatially and spectrally resolved observations of MWC 147 reveal
  that the K-band continuum and Brγ emission both originate from a
  similar region which is 3.9 times more compact than the expected dust
  sublimation radius for the star; Brγ is emitted from the accretion
  disk or disk wind region and exhibits a rotational velocity profile. We
  conclude that we detect the presence of a compact, gaseous accretion
  disk in Keplerian rotation around MWC 147. <P />Based on observations
  made with ESO Telescopes at the La Silla Paranal Observatory under
  programme IDs 082.C-0627, 082.C-0893 and 086.C-0684.

---------------------------------------------------------
Title: Distinguishing circumstellar from stellar photometric
    variability in Eta Carinae
Authors: Damineli, A.; Fernández-Lajús, E.; Almeida, L. A.;
   Corcoran, M. F.; Damineli, D. S. C.; Gull, T. R.; Hamaguchi, K.;
   Hillier, D. J.; Jablonski, F. J.; Madura, T. I.; Moffat, A. F. J.;
   Navarete, F.; Richardson, N. D.; Ruiz, G. F.; Salerno, N. E.; Scalia,
   M. C.; Weigelt, G.
2019MNRAS.484.1325D    Altcode: 2019arXiv190100531D; 2019MNRAS.tmp...89D
  The interacting binary Eta Carinae remains one of the most
  enigmatic massive stars in our Galaxy despite over four centuries of
  observations. In this work, its light curve from the ultraviolet
  to the near-infrared is analysed using spatially resolved HST
  observations and intense monitoring at the La Plata Observatory,
  combined with previously published photometry. We have developed a
  method to separate the central stellar object in the ground-based
  images using HST photometry and applying it to the more numerous
  ground-based data, which supports the hypothesis that the central
  source is brightening faster than the almost-constant Homunculus. After
  detrending from long-term brightening, the light curve shows periodic
  orbital modulation (ΔV ∼ 0.6 mag) attributed to the wind-wind
  collision cavity as it sweeps around the primary star and it shows
  variable projected area to our line-of-sight. Two quasi-periodic
  components with time-scales of 2-3 and 8-10 yr and low amplitude,
  ΔV &lt; 0.2 mag, are superimposed on the brightening light curve,
  being the only stellar component of variability found, which indicates
  minimal stellar instability. Moreover, the light-curve analysis shows
  no evidence of `shell ejections' at periastron. We propose that the
  long-term brightening of the stellar core is due to the dissipation of
  a dusty clump in front of the central star, which works like a natural
  coronagraph. Thus, the central stars appear to be more stable than
  previously thought since the dominant variability originates from a
  changing circumstellar medium. We predict that the brightening phase,
  due mainly to dust dissipation, will be completed around 2032 ± 4 yr,
  when the star will be brighter than in the 1600s by up to ΔV ∼ 1 mag.

---------------------------------------------------------
Title: ARGOS at the LBT. Binocular laser guided ground-layer
    adaptive optics
Authors: Rabien, S.; Angel, R.; Barl, L.; Beckmann, U.; Busoni, L.;
   Belli, S.; Bonaglia, M.; Borelli, J.; Brynnel, J.; Buschkamp, P.;
   Cardwell, A.; Contursi, A.; Connot, C.; Davies, R.; Deysenroth, M.;
   Durney, O.; Eisenhauer, F.; Elberich, M.; Esposito, S.; Frye, B.;
   Gaessler, W.; Gasho, V.; Gemperlein, H.; Genzel, R.; Georgiev, I. Y.;
   Green, R.; Hart, M.; Kohlmann, C.; Kulas, M.; Lefebvre, M.; Mazzoni,
   T.; Noenickx, J.; Orban de Xivry, G.; Ott, T.; Peter, D.; Puglisi,
   A.; Qin, Y.; Quirrenbach, A.; Raab, W.; Rademacher, M.; Rahmer, G.;
   Rosensteiner, M.; Rix, H. W.; Salinari, P.; Schwab, C.; Sivitilli,
   A.; Steinmetz, M.; Storm, J.; Veillet, C.; Weigelt, G.; Ziegleder, J.
2019A&A...621A...4R    Altcode: 2018arXiv180609938R; 2018A&A...621A...4R
  Having completed its commissioning phase, the Advanced Rayleigh
  guided Ground-layer adaptive Optics System (ARGOS) facility is coming
  online for scientific observations at the Large Binocular Telescope
  (LBT). With six Rayleigh laser guide stars in two constellations and
  the corresponding wavefront sensing, ARGOS corrects the ground-layer
  distortions for both LBT 8.4 m eyes with their adaptive secondary
  mirrors. Under regular observing conditions, this set-up delivers
  a point spread function (PSF) size reduction by a factor of 2-3
  compared to a seeing-limited operation. With the two LUCI infrared
  imaging and multi-object spectroscopy instruments receiving the
  corrected images, observations in the near-infrared can be performed
  at high spatial and spectral resolution. We discuss the final ARGOS
  technical set-up and the adaptive optics performance. We show that
  imaging cases with ground-layer adaptive optics (GLAO) are enhancing
  several scientific programmes, from cluster colour magnitude diagrams
  and Milky Way embedded star formation, to nuclei of nearby galaxies or
  extragalactic lensing fields. In the unique combination of ARGOS with
  the multi-object near-infrared spectroscopy available in LUCI over a
  4 × 4 arcmin field of view, the first scientific observations have
  been performed on local and high-z objects. Those high spatial and
  spectral resolution observations demonstrate the capabilities now at
  hand with ARGOS at the LBT.

---------------------------------------------------------
Title: Why chromatic imaging matters
Authors: Sanchez-Bermudez, Joel; Millour, Florentin; Baron, Fabien;
   van Boekel, Roy; Bourgès, Laurent; Duvert, Gilles; Garcia, Paulo
   J. V.; Gomes, Nuno; Hofmann, Karl-Heinz; Henning, Thomas; Isbell,
   Jacob W.; Lopez, Bruno; Matter, Alexis; Pott, J. -Uwe; Schertl,
   Dieter; Thiébaut, Eric; Weigelt, Gerd; Young, John
2018ExA....46..457S    Altcode: 2018ExA...tmp...75S; 2018arXiv181206191S
  During the last two decades, the first generation of beam combiners at
  the Very Large Telescope Interferometer has proved the importance of
  optical interferometry for high-angular resolution astrophysical studies
  in the near- and mid-infrared. With the advent of 4-beam combiners at
  the VLTI, the u - v coverage per pointing increases significantly,
  providing an opportunity to use reconstructed images as powerful
  scientific tools. Therefore, interferometric imaging is already a key
  feature of the new generation of VLTI instruments, as well as for other
  interferometric facilities like CHARA and JWST. It is thus imperative
  to account for the current image reconstruction capabilities and their
  expected evolutions in the coming years. Here, we present a general
  overview of the current situation of optical interferometric image
  reconstruction with a focus on new wavelength-dependent information,
  highlighting its main advantages and limitations. As an Appendix we
  include several cookbooks describing the usage and installation of
  several state-of-the art image reconstruction packages. To illustrate
  the current capabilities of the software available to the community,
  we recovered chromatic images, from simulated MATISSE data, using
  the MCMC software SQUEEZE. With these images, we aim at showing the
  importance of selecting good regularization functions and their impact
  on the reconstruction.

---------------------------------------------------------
Title: The LEECH Exoplanet Imaging Survey: Limits on Planet Occurrence
    Rates under Conservative Assumptions
Authors: Stone, Jordan M.; Skemer, Andrew J.; Hinz, Philip M.;
   Bonavita, Mariangela; Kratter, Kaitlin M.; Maire, Anne-Lise; Defrere,
   Denis; Bailey, Vanessa P.; Spalding, Eckhart; Leisenring, Jarron
   M.; Desidera, S.; Bonnefoy, M.; Biller, Beth; Woodward, Charles E.;
   Henning, Th.; Skrutskie, Michael F.; Eisner, J. A.; Crepp, Justin R.;
   Patience, Jennifer; Weigelt, Gerd; De Rosa, Robert J.; Schlieder,
   Joshua; Brandner, Wolfgang; Apai, Dániel; Su, Kate; Ertel, Steve;
   Ward-Duong, Kimberly; Morzinski, Katie M.; Schertl, Dieter; Hofmann,
   Karl-Heinz; Close, Laird M.; Brems, Stefan S.; Fortney, Jonathan J.;
   Oza, Apurva; Buenzli, Esther; Bass, Brandon
2018AJ....156..286S    Altcode: 2018arXiv181010560S
  We present the results of the largest L‧ (3.8 μm) direct
  imaging survey for exoplanets to date, the Large Binocular Telescope
  Interferometer Exozodi Exoplanet Common Hunt (LEECH). We observed 98
  stars with spectral types from B to M. Cool planets emit a larger
  share of their flux in L‧ compared to shorter wavelengths,
  affording LEECH an advantage in detecting low-mass, old, and
  cold-start giant planets. We emphasize proximity over youth in
  our target selection, probing physical separations smaller than
  other direct imaging surveys. For FGK stars, LEECH outperforms
  many previous studies, placing tighter constraints on the hot-start
  planet occurrence frequency interior to ∼20 au. For less luminous,
  cold-start planets, LEECH provides the best constraints on giant-planet
  frequency interior to ∼20 au around FGK stars. Direct imaging survey
  results depend sensitively on both the choice of evolutionary model
  (e.g., hot- or cold-start) and assumptions (explicit or implicit)
  about the shape of the underlying planet distribution, in particular
  its radial extent. Artificially low limits on the planet occurrence
  frequency can be derived when the shape of the planet distribution
  is assumed to extend to very large separations, well beyond typical
  protoplanetary dust-disk radii (≲50 au), and when hot-start models
  are used exclusively. We place a conservative upper limit on the planet
  occurrence frequency using cold-start models and planetary population
  distributions that do not extend beyond typical protoplanetary
  dust-disk radii. We find that ≲90% of FGK systems can host a 7-10
  M <SUB>Jup</SUB> planet from 5 to 50 au. This limit leaves open the
  possibility that planets in this range are common.

---------------------------------------------------------
Title: The Life and Times of AMBER: The VLTI's Astronomical Multi-BEam
    combineR
Authors: de Wit, W. -J.; Wittkowski, M.; Rantakyrö, F.; Schöller,
   M.; Mérand, A.; Petrov, R. G.; Weigelt, G.; Malbet, F.; Massi, F.;
   Kraus, S.; Ohnaka, K.; Millour, F.; Lagarde, S.; Haubois, X.; Bourget,
   P.; Percheron, I.; Berger, J. -P.; Richichi, A.
2018Msngr.174....8W    Altcode:
  The sharpest images on Paranal are produced by the beam-combining
  instruments of the Very Large Telescope Interferometer
  (VLTI). Currently, the VLTI is close to completing a transitional
  period, moving away from the first generation of instruments (AMBER,
  MIDI) and offering new instruments and subsystems to the community. In
  this article, we report on the life and achievements of the recently
  decommissioned, near-infrared beam combiner instrument AMBER, the most
  prolific optical interferometric instrument to date.

---------------------------------------------------------
Title: GRAVITY chromatic imaging of η Car's core. Milliarcsecond
    resolution imaging of the wind-wind collision zone (Brγ, He I)
Authors: GRAVITY Collaboration; Sanchez-Bermudez, J.; Weigelt,
   G.; Bestenlehner, J. M.; Kervella, P.; Brandner, W.; Henning, Th.;
   Müller, A.; Perrin, G.; Pott, J. -U.; Schöller, M.; van Boekel, R.;
   Abuter, R.; Accardo, M.; Amorim, A.; Anugu, N.; Ávila, G.; Benisty,
   M.; Berger, J. P.; Blind, N.; Bonnet, H.; Bourget, P.; Brast, R.;
   Buron, A.; Cantalloube, F.; Caratti O Garatti, A.; Cassaing, F.;
   Chapron, F.; Choquet, E.; Clénet, Y.; Collin, C.; Coudé Du Foresto,
   V.; de Wit, W.; de Zeeuw, T.; Deen, C.; Delplancke-Ströbele, F.;
   Dembet, R.; Derie, F.; Dexter, J.; Duvert, G.; Ebert, M.; Eckart,
   A.; Eisenhauer, F.; Esselborn, M.; Fédou, P.; Garcia, P. J. V.;
   Garcia Dabo, C. E.; Garcia Lopez, R.; Gao, F.; Gendron, E.; Genzel,
   R.; Gillessen, S.; Haubois, X.; Haug, M.; Haussmann, F.; Hippler,
   S.; Horrobin, M.; Huber, A.; Hubert, Z.; Hubin, N.; Hummel, C. A.;
   Jakob, G.; Jochum, L.; Jocou, L.; Karl, M.; Kaufer, A.; Kellner, S.;
   Kendrew, S.; Kern, L.; Kiekebusch, M.; Klein, R.; Kolb, J.; Kulas, M.;
   Lacour, S.; Lapeyrère, V.; Lazareff, B.; Le Bouquin, J. -B.; Léna,
   P.; Lenzen, R.; Lévêque, S.; Lippa, M.; Magnard, Y.; Mehrgan, L.;
   Mellein, M.; Mérand, A.; Moreno-Ventas, J.; Moulin, T.; Müller,
   E.; Müller, F.; Neumann, U.; Oberti, S.; Ott, T.; Pallanca, L.;
   Panduro, J.; Pasquini, L.; Paumard, T.; Percheron, I.; Perraut, K.;
   Petrucci, P. -O.; Pflüger, A.; Pfuhl, O.; Duc, T. P.; Plewa, P. M.;
   Popovic, D.; Rabien, S.; Ramirez, A.; Ramos, J.; Rau, C.; Riquelme,
   M.; Rodríguez-Coira, G.; Rohloff, R. -R.; Rosales, A.; Rousset, G.;
   Scheithauer, S.; Schuhler, N.; Spyromilio, J.; Straub, O.; Straubmeier,
   C.; Sturm, E.; Suarez, M.; Tristram, K. R. W.; Ventura, N.; Vincent,
   F.; Waisberg, I.; Wank, I.; Widmann, F.; Wieprecht, E.; Wiest, M.;
   Wiezorrek, E.; Wittkowski, M.; Woillez, J.; Wolff, B.; Yazici, S.;
   Ziegler, D.; Zins, G.
2018A&A...618A.125G    Altcode: 2018arXiv180802141G
  Context. η Car is one of the most intriguing luminous blue variables in
  the Galaxy. Observations and models of the X-ray, ultraviolet, optical,
  and infrared emission suggest a central binary in a highly eccentric
  orbit with a 5.54 yr period residing in its core. 2D and 3D radiative
  transfer and hydrodynamic simulations predict a primary with a dense and
  slow stellar wind that interacts with the faster and lower density wind
  of the secondary. The wind-wind collision scenario suggests that the
  secondary's wind penetrates the primary's wind creating a low-density
  cavity in it, with dense walls where the two winds interact. However,
  the morphology of the cavity and its physical properties are not yet
  fully constrained. <BR /> Aims: We aim to trace the inner ∼5-50
  au structure of η Car's wind-wind interaction, as seen through Brγ
  and, for the first time, through the He I 2s-2p line. <BR /> Methods:
  We have used spectro-interferometric observations with the K-band
  beam-combiner GRAVITY at the VLTI. The analyses of the data include
  (i) parametrical model-fitting to the interferometric observables,
  (ii) a CMFGEN model of the source's spectrum, and (iii) interferometric
  image reconstruction. <BR /> Results: Our geometrical modeling of the
  continuum data allows us to estimate its FWHM angular size close to
  2 mas and an elongation ratio ɛ = 1.06 ± 0.05 over a PA = 130° ±
  20°. Our CMFGEN modeling of the spectrum helped us to confirm that
  the role of the secondary should be taken into account to properly
  reproduce the observed Brγ and He I lines. Chromatic images across the
  Brγ line reveal a southeast arc-like feature, possibly associated to
  the hot post-shocked winds flowing along the cavity wall. The images
  of the He I 2s-2p line served to constrain the 20 mas (∼50 au)
  structure of the line-emitting region. The observed morphology of He
  I suggests that the secondary is responsible for the ionized material
  that produces the line profile. Both the Brγ and the He I 2s-2p maps
  are consistent with previous hydrodynamical models of the colliding
  wind scenario. Future dedicated simulations together with an extensive
  interferometric campaign are necessary to refine our constraints on
  the wind and stellar parameters of the binary, which finally will help
  us predict the evolutionary path of η Car.

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Title: Parsec-scale jets driven by high-mass young stellar
    objects. Connecting the au- and the parsec-scale jet in IRAS
    13481-6124
Authors: Fedriani, R.; Caratti o Garatti, A.; Coffey, D.; Garcia Lopez,
   R.; Kraus, S.; Weigelt, G.; Stecklum, B.; Ray, T. P.; Walmsley, C. M.
2018A&A...616A.126F    Altcode: 2018arXiv180511512F
  Context. Protostellar jets in high-mass young stellar objects (HMYSOs)
  play a key role in the understanding of star formation and provide us
  with an excellent tool to study fundamental properties of HMYSOs. <BR
  /> Aims: We aim at studying the physical and kinematic properties
  of the near-infrared (NIR) jet of IRAS 13481-6124 from au to parsec
  scales. <BR /> Methods: Our study includes NIR data from the Very Large
  Telescope instruments SINFONI, CRIRES, and ISAAC. Information about
  the source and its immediate environment is retrieved with SINFONI. The
  technique of spectro-astrometry is performed with CRIRES to study the
  jet on au scales. The parsec-scale jet and its kinematic and dynamic
  properties are investigated using ISAAC. <BR /> Results: The SINFONI
  spectra in H and K bands are rich in emission lines that are mainly
  associated with ejection and accretion processes. Spectro-astrometry is
  applied to the Brγ line, and for the first time, to the Brα line,
  revealing their jet origin with milliarcsecond-scale photocentre
  displacements (11-15 au). This allows us to constrain the kinematics
  of the au-scale jet and to derive its position angle ( 216°). ISAAC
  spectroscopy reveals H<SUB>2</SUB> emission along the parsec-scale
  jet, which allows us to infer kinematic and dynamic properties of the
  NIR parsec-scale jet. The mass-loss rate inferred for the NIR jet is
  Ṁ<SUB>ejec</SUB> 10<SUP>-4</SUP> M<SUB>⊙</SUB> yr<SUP>-1</SUP>
  and the thrust is Ṗ 10<SUP>-2</SUP> M<SUB>⊙</SUB> yr<SUP>-1</SUP>
  km s<SUP>-1</SUP>, which is roughly constant for the formation history
  of the young star. A tentative estimate of the ionisation fraction is
  derived for the massive jet by comparing the radio and NIR mass-loss
  rates. An ionisation fraction ≲8% is obtained, which means that the
  bulk of the ejecta is traced by the NIR jet and that the radio jet only
  delineates a small portion of it. <P />Based on observations collected
  at the European Southern Observatory La Silla, Chile, 087.C-0951(A),
  087.C-0951(B), 087.C-0489(C), and 090.C-0371(C).

---------------------------------------------------------
Title: The installation and ongoing commissioning of the MATISSE
    mid-infrared interferometer at the ESO Very Large Telescope
    Observatory
Authors: Lopez, B.; Lagarde, S.; Matter, A.; Agocs, T.; Allouche, F.;
   Antonelli, P.; Augereau, J. -C.; Bailet, C.; Berio, P.; Bettonvil, F.;
   Beckmann, U.; van Boekel, R.; Bresson, Y.; Bristow, P.; Cruzalebes,
   P.; Delbo, M.; Dominik, C.; Elswijk, E.; Fantei, Y.; Glindemann, A.;
   Heininger, M.; Hofmann, K. -H.; Hogerheijde, M.; Hron, J.; Jaffe,
   W.; Kroes, G.; Laun, W.; Lehmitz, M.; Meilland, A.; Meisenheimer,
   K.; Millour, F.; Morel, S.; Neumann, U.; Pantin, E.; Petrov, R. G.;
   Robbe-Dubois, S.; Schertl, D.; Schoeller, M.; Wolf, S.; Zins, G.;
   Henning, T.; Stee, Ph.; Weigelt, G.
2018SPIE10701E..0ZL    Altcode:
  MATISSE is the second-generation mid-infrared spectrograph and imager
  for the Very Large Telescope Interferometer (VLTI) at Paranal. This
  new interferometric instrument will allow significant advances in
  various fundamental research fields: studying the planet-forming
  region of disks around young stellar objects, understanding the surface
  structures and mass loss phenomena affecting evolved stars, and probing
  the environments of black holes in active galactic nuclei. As a first
  breakthrough, MATISSE will enlarge the spectral domain of current
  optical interferometers by offering the L and M bands in addition to
  the N band. This will open a wide wavelength domain, ranging from
  2.8 to 13 μm, exploring angular scales as small as 3 mas (L band)
  / 10 mas (N band). As a second breakthrough, MATISSE will allow
  mid-infrared imaging - closure-phase aperture-synthesis imaging -
  with the four Unit Telescopes (UT) or Auxiliary Telescopes (AT) of the
  VLTI. Moreover, MATISSE will offer a spectral resolution range from R
  30 to R 5000. Here, we remind the concept, the instrumental design,
  and the main features of MATISSE. We also describe the last months
  of preparation, the status of the instrument, which was shipped to
  Cerro Paranal on the site of the ESO Very Large Telescope in October
  2017, and the expected schedule for the opening to the community. The
  instrument is currently in its Commissioning phase. A complementary
  dedicated article details the Commissioning results, which include
  the first performance estimates on sky.

---------------------------------------------------------
Title: MATISSE: performance in laboratory, results of AIV in Paranal,
    and first results on sky
Authors: Robbe-Dubois, S.; Lagarde, S.; Antonelli, P.; Lopez, B.;
   Allouche, F.; Bailet, C.; Berio, Ph.; Bresson, Y.; Clausse, J. -M.;
   Cruzalèbes, P.; Fantei-Caujolle, Y.; Marcotto, A.; Matter, A.;
   Meilland, A.; Millour, F.; Morel, S.; Petrov, R. G.; Rousseau, S.;
   Soulain, A.; Zins, G.; Lehmitz, M.; Laun, W.; Adler, T.; Klein, R.;
   Maurer, T.; Bettonvil, F.; Eldswick, E.; Beckmann, U.; Heininger,
   M.; Bristow, P.; Glindemann, A.; Hubin, N.; Jochum, L.; Rivinus,
   Th.; Schoeller, M.; Beltran, J.; Bourget, P.; Gallenne, A.; Guerlet,
   Th.; Haubois, X.; Ives, D.; Jakob, G.; Meister, A.; Riquelme, M.;
   Schuhler, N.; Stephan, C.; Toledo, P.; Tristam, K.; Woillez, J.;
   Neumann, U.; Chelli, A.; Guitton, F.; Meisenheimer, K.; Pichon, B.;
   Spang, A.; Varga, J.; Henning, Th.; Jaffe, W.; Pasquini, L.; Stee,
   Ph.; Weigelt, G.
2018SPIE10701E..0HR    Altcode:
  MATISSE (Multi AperTure mid-Infrared SpectroScopic Experiment) is the
  spectro-interferometer for the VLTI of the European Southern Observatory
  (ESO), operating in the L-, M- and N- spectral bands, and combining
  up to four beams from the unit or the auxiliary telescopes (UTs or
  ATs). MATISSE will offer new breakthroughs in the study of circumstellar
  environments by allowing the mapping of the material distribution,
  the gas and essentially the dust. The instrument consists in a warm
  optical system (WOP) accepting four beams from the VLTI and relaying
  them after a spectral splitting to cold optical benches (COB) located in
  two separate cryostats, one in L-M- band, and one in N-band. The test
  plan of the complete instrument has been conducted at the Observatoire
  de la Côte d'Azur in order to confirm the compliance of the performance
  with the high-level requirements. MATISSE has successfully passed the
  Preliminary Acceptance in Europe the 12th September 2017. Following
  this result, ESO gave approval for the instrument to be shipped to
  Paranal. The Alignment, Integration and Verification phase was conducted
  until end of February 2018, at the end of which first observations on
  sky have been performed to test the operations with the VLTI and to
  obtain first stellar light. The two first runs of the commissioning
  followed, respectively in March and in May 2018. It has the goal to
  optimize the MATISSE-VLTI communication, the acquisition procedures
  and the interface parameters. The observations were performed on
  bright L-M- and N- stars, with four ATs located on short baselines
  and UTs. The limit magnitudes will be deduced. This paper reports on
  the performance of the instrument measured in laboratory (results of
  test plan in Nice and AIV in Paranal) in terms of spectral coverage,
  dispersion laws and spectral resolutions, and transfer function
  analysis: instrumental contrast, visibility accuracy, accuracy of
  the differential phase, of the closure-phase and of the differential
  visibility. It also provides results of the first tests on sky and
  the planning of the on-going commissioning.

---------------------------------------------------------
Title: Planet formation imager: project update
Authors: Monnier, John D.; Ireland, Michael; Kraus, Stefan;
   Alonso-Herrero, Almudena; Bonsor, Amy; Baron, Fabien; Bayo, Amelia;
   Berger, Jean-Philippe; Boyajian, Tabetha; Chiavassa, Andrea; Ciardi,
   David; Creech-Eakman, Michelle; de Wit, Willem-Jan; Defrère, Denis;
   Dong, Ruobing; Duchêne, Gaspard; Espaillat, Catherine; Gallenne,
   Alexandre; Gandhi, Poshak; Gonzalez, Jean-Francois; Haniff, Chris;
   Hoenig, Sebastian; Ilee, John; Isella, Andrea; Jensen, Eric; Juhasz,
   Attila; Kane, Stephen; Kishimoto, Makoto; Kley, Wilhelm; Kral, Quentin;
   Kratter, Kaitlin; Labadie, Lucas; Lacour, Sylvestre; Laughlin, Greg; Le
   Bouquin, Jean-Baptiste; Michael, Ernest; Meru, Farzana; Millan-Gabet,
   Rafael; Millour, Florentin; Minardi, Stefano; Morbidelli, Alessandro;
   Mordasini, Chris; Morlok, Andreas; Mozurkewich, Dave; Nelson,
   Richard; Olofsson, Johan; Oudmaijer, Rene; Packham, Chris; Paladini,
   Claudia; Panic, Olja; Petrov, Romain; Pope, Benjamin; Pott, Joerg-Uwe;
   Quiroga-Nunez, Luis Henry; Ramos Almeida, Cristina; Raymond, Sean N.;
   Regaly, Zsolt; Reynolds, Mark; Ridgway, Stephen; Rinehart, Stephen;
   Schreiber, Matthias; Smith, Michael; Stassun, Keivan; Surdej, Jean;
   ten Brummelaar, Theo; Tristram, Konrad; Turner, Neal; Tuthill, Peter;
   van Belle, Gerard; Vasisht, Gautum; Wallace, Alexander; Weigelt,
   Gerd; Wishnow, Edward; Wittkowski, Markus; Wolf, Sebastian; Young,
   John; Zhao, Ming; Zhu, Zhaohuan; Zúñiga-Fernández, Sebastian
2018SPIE10701E..18M    Altcode: 2018arXiv180711555M
  The Planet Formation Imager (PFI) is a near- and mid-infrared
  interferometer project with the driving science goal of imaging directly
  the key stages of planet formation, including the young proto-planets
  themselves. Here, we will present an update on the work of the Science
  Working Group (SWG), including new simulations of dust structures during
  the assembly phase of planet formation and quantitative detection
  efficiencies for accreting and non-accreting young exoplanets as
  a function of mass and age. We use these results to motivate two
  reference PFI designs consisting of a) twelve 3m telescopes with a
  maximum baseline of 1.2km focused on young exoplanet imaging and b)
  twelve 8m telescopes optimized for a wider range of young exoplanets
  and protoplanetary disk imaging out to the 150K H<SUB>2</SUB>O ice
  line. Armed with 4 x 8m telescopes, the ESO/VLTI can already detect
  young exoplanets in principle and projects such as MATISSE, Hi-5 and
  Heimdallr are important PFI pathfinders to make this possible. We also
  discuss the state of technology development needed to make PFI more
  affordable, including progress towards new designs for inexpensive,
  small field-of-view, large aperture telescopes and prospects for
  Cubesat-based space interferometry.

---------------------------------------------------------
Title: On the Brγ line emission of the Herbig Ae/Be star MWC 120
Authors: Kreplin, Alexander; Tambovtseva, Larisa; Grinin, Vladimir;
   Kraus, Stefan; Weigelt, Gerd; Wang, Yang
2018MNRAS.476.4520K    Altcode:
  The origin of the Br γ line in Herbig Ae/Be stars is still an open
  question. It has been proposed that a fraction of the 2.166-μm Br γ
  emission might emerge from a disc wind, the magnetosphere and other
  regions. Investigations of the Br γ line in young stellar objects
  are important to improve our understanding of the accretion-ejection
  process. Near-infrared long-baseline interferometry enables the
  investigation of the Br γ line-emitting region with high spatial and
  high spectral resolution. We observed the Herbig Ae/Be star MWC 120
  with the Astronomical Multi-Beam Recombiner (AMBER) on the Very Large
  Telescope Interferometer (VLTI) in different spectral channels across
  the Br γ line with a spectral resolution of R ∼ 1500. Comparison
  of the visibilities, differential and closure phases in the continuum
  and the line-emitting region with geometric and radiative transfer
  disc-wind models leads to constraints on the origin and dynamics of the
  gas emitting the Br γ light. Geometric modelling of the visibilities
  reveals a line-emission region about two times smaller than the K-band
  continuum region, which indicates a scenario where the Br γ emission is
  dominated by an extended disc wind rather than by a much more compact
  magnetospheric origin. To compare our data with a physical model,
  we applied a state-of-the-art radiative transfer disc-wind model. We
  find that all measured visibilities, differential and closure phases
  of MWC 120 can be approximately reproduced by a disc-wind model. A
  comparison with other Herbig stars indicates a correlation of the
  modelled inner disc-wind radii with the corresponding Alfvén radii
  for late spectral type stars.

---------------------------------------------------------
Title: Weak Magnetic Fields in Two Herbig Ae Systems: The SB2 AK
    Sco and the Presumed Binary HD 95881
Authors: Järvinen, S. P.; Carroll, T. A.; Hubrig, S.; Ilyin, I.;
   Schöller, M.; Castelli, F.; Hummel, C. A.; Petr-Gotzens, M. G.;
   Korhonen, H.; Weigelt, G.; Pogodin, M. A.; Drake, N. A.
2018ApJ...858L..18J    Altcode: 2018arXiv180504701J
  We report the detection of weak mean longitudinal magnetic fields
  in the Herbig Ae double-lined spectroscopic binary AK Sco and in the
  presumed spectroscopic Herbig Ae binary HD 95881 using observations
  with the High Accuracy Radial velocity Planet Searcher polarimeter
  (HARPSpol) attached to the European Southern Observatory’s
  (ESO’s) 3.6 m telescope. Employing a multi-line singular value
  decomposition method, we detect a mean longitudinal magnetic
  field &lt; {B}<SUB>{{z</SUB>}}&gt; =-83+/- 31 G in the secondary
  component of AK Sco on one occasion. For HD 95881, we measure &lt;
  {B}<SUB>{{z</SUB>}}&gt; =-93+/- 25 G and &lt; {B}<SUB>{{z</SUB>}}&gt;
  =105+/- 29 G at two different observing epochs. For all the detections
  the false alarm probability is smaller than 10<SUP>-5</SUP>. For AK
  Sco system, we discover that accretion diagnostic Na I doublet lines
  and photospheric lines show intensity variations over the observing
  nights. The double-lined spectral appearance of HD 95881 is presented
  here for the first time.

---------------------------------------------------------
Title: BRITE-Constellation reveals evidence for pulsations in the
    enigmatic binary η Carinae
Authors: Richardson, Noel D.; Pablo, Herbert; Sterken, Christiaan;
   Pigulski, Andrzej; Koenigsberger, Gloria; Moffat, Anthony F. J.;
   Madura, Thomas I.; Hamaguchi, Kenji; Corcoran, Michael F.; Damineli,
   Augusto; Gull, Theodore R.; Hillier, D. John; Weigelt, Gerd; Handler,
   Gerald; Popowicz, Adam; Wade, Gregg A.; Weiss, Werner W.; Zwintz,
   Konstanze
2018MNRAS.475.5417R    Altcode: 2018arXiv180105445R; 2018MNRAS.tmp..153R
  η Car is a massive, eccentric binary with a rich observational
  history. We obtained the first high-cadence, high-precision light
  curves with the BRITE-Constellation nanosatellites over 6 months in
  2016 and 6 months in 2017. The light curve is contaminated by several
  sources including the Homunculus nebula and neighbouring stars,
  including the eclipsing binary CPD -59°2628. However, we found
  two coherent oscillations in the light curve. These may represent
  pulsations that are not yet understood but we postulate that they are
  related to tidally excited oscillations of η Car's primary star, and
  would be similar to those detected in lower mass eccentric binaries. In
  particular, one frequency was previously detected by van Genderen et
  al. and Sterken et al. through the time period of 1974-1995 through
  timing measurements of photometric maxima. Thus, this frequency seems
  to have been detected for nearly four decades, indicating that it has
  been stable in frequency over this time span. These pulsations could
  help provide the first direct constraints on the fundamental parameters
  of the primary star if confirmed and refined with future observations.

---------------------------------------------------------
Title: Embedded AGN and star formation in the central 80 pc of IC 3639
Authors: Fernández-Ontiveros, J. A.; Tristram, K. R. W.; Hönig,
   S.; Gandhi, P.; Weigelt, G.
2018A&A...611A..46F    Altcode: 2017arXiv171101268F
  <BR /> Aims: Our goal is to probe the inner structure and the nature of
  the mid-IR emission in the active galaxy IC 3639, which hosts a Seyfert
  2 nucleus and shows signatures of strong star-forming activity. <BR
  /> Methods: We used interferometric observations in the N-band with
  VLTI/MIDI to resolve the mid-IR emission of this nucleus. The origin of
  the nuclear infrared emission is determined from: (1) the comparison
  of the correlated fluxes from VLTI/MIDI with the fluxes measured at
  subarcsecond resolution (VLT/VISIR, VLT/ISAAC); (2) diagnostics based
  on IR fine-structure line ratios, the IR continuum emission, IR bands
  produced by polycyclic aromatic hydrocarbons (PAH) and silicates; and
  (3) the high-angular resolution spectral energy distribution. <BR />
  Results: A large fraction of the total mid-IR emission of IC 3639 is
  produced in the innermost ≲80 pc with only 1% of the total luminosity
  released in the UV/optical range. The unresolved flux of IC 3639 is
  90 ± 20 mJy at 10.5 μm, measured with three different baselines
  in VLTI (UT1-UT2, UT3-UT4, and UT2-UT3; 46-58 m), making this the
  faintest measurement so far achieved with mid-IR interferometry. The
  correlated flux is a factor of 3-4 times fainter than the VLT/VISIR
  total flux measurement. The observations suggest that most of the
  mid-IR emission has its origin on spatial scales between 10 and 80 pc
  (40-340 mas). The emission confined within the inner 80 pc is either
  dominated by a starburst component or by the AGN core. The brightness
  distribution could be reproduced by a single component associated
  with the AGN, although this scenario would imply a very extended dust
  distribution when compared to other nearby Seyfert galaxies detected
  with MIDI. The extended component could also be associated with polar
  dust emission, that is, with a dusty wind blown by the AGN. However,
  a mixed contribution dominated by the star formation component over the
  AGN is favoured by the diagnostics based on ratios of IR fine-structure
  emission lines, the shape of the IR continuum, and the PAH and silicate
  bands. <BR /> Conclusions: A composite AGN-starburst scenario is able
  to explain both the mid-IR brightness distribution and the IR spectral
  properties observed in the nucleus of IC 3639. The nuclear starburst
  would dominate the mid-IR emission and the ionisation of low-excitation
  lines (e.g. [Ne II]<SUB>12.8 μm</SUB>) with a net contribution
  of 70%. The AGN accounts for the remaining 30% of the mid-IR flux,
  ascribed to the unresolved component in the MIDI observations, and the
  ionisation of high-excitation lines (e.g. [Ne V]<SUB>14.3 μm</SUB>
  and [O IV]<SUB>25.9 μm</SUB>). <P />Based on observations collected
  at the European Southern Observatory, Chile, programmes 070.B-0393,
  088.D-0005 and 088.B-0809.

---------------------------------------------------------
Title: A study of dust properties in the inner sub-au region of the
    Herbig Ae star HD 169142 with VLTI/PIONIER
Authors: Chen, L.; Kóspál, Á.; Ábrahám, P.; Kreplin, A.; Matter,
   A.; Weigelt, G.
2018A&A...609A..45C    Altcode: 2017arXiv170906514C
  Context. An essential step to understanding protoplanetary evolution
  is the study of disks that contain gaps or inner holes. The
  pre-transitional disk around the Herbig star HD 169142 exhibits
  multi-gap disk structure, differentiated gas and dust distribution,
  planet candidates, and near-infrared fading in the past decades, which
  make it a valuable target for a case study of disk evolution. <BR
  /> Aims: Using near-infrared interferometric observations with
  VLTI/PIONIER, we aim to study the dust properties in the inner sub-au
  region of the disk in the years 2011-2013, when the object is already
  in its near-infrared faint state. <BR /> Methods: We first performed
  simple geometric modeling to characterize the size and shape of the
  NIR-emitting region. We then performed Monte-Carlo radiative transfer
  simulations on grids of models and compared the model predictions
  with the interferometric and photometric observations. <BR /> Results:
  We find that the observations are consistent with optically thin gray
  dust lying at R<SUB>in</SUB> ~ 0.07 au, passively heated to T ~ 1500
  K. Models with sub-micron optically thin dust are excluded because such
  dust will be heated to much higher temperatures at similar distance. The
  observations can also be reproduced with a model consisting of optically
  thick dust at R<SUB>in</SUB> ~ 0.06 au, but this model is plausible
  only if refractory dust species enduring ~ 2400 K exist in the inner
  disk. <P />Based on observations collected at the European Organisation
  for Astronomical Research in the Southern Hemisphere under ESO programs
  190.C-963 and 087.C-0709.

---------------------------------------------------------
Title: VLTI Imaging of a High-Mass Protobinary System: Unveiling
    the Dynamical Processes in High-Mass Star Formation
Authors: Kraus, S.; Kluska, J.; Kreplin, A.; Bate, M.; Harries,
   T.; Hofmann, K. -H.; Hone, E.; Monnier, J.; Weigelt, G.; Anugu, N.;
   de Wit, W. -J. .; Wittkowski, M.
2017Msngr.170...45K    Altcode:
  High-mass stars exhibit a significantly higher multiplicity
  frequency than low-mass stars, likely reflecting differences
  in how they formed. Theory suggests that high-mass binaries
  may form by the fragmentation of self-gravitational discs or by
  alternative scenarios such as disc-assisted capture. Near-infrared
  interferometric observations reveal the high-mass young stellar object
  IRAS 17216-3801 to be a close high-mass protobinary with a separation of
  0.058 arcseconds ( 170 au). This is the closest high-mass protobinary
  system imaged to date. We also resolve near- infrared excess emission
  around the individual stars, which is associated with hot dust in
  circumstellar discs. These discs are strongly misaligned with respect
  to the binary separation vector, indicating that tidal forces have not
  yet had time to realign. We measure a higher accretion rate towards
  the circumsecondary disc, confirming a hydrodynamic effect where the
  secondary star disrupts the primary star’s accretion stream and
  effectively limits the mass that the primary star can accrete. NACO
  L'-band imaging may also have resolved the circumbinary disc that
  feeds the accretion onto the circumstellar discs. This discovery
  demonstrates the unique capabilities of the VLTI, creating exciting
  new opportunities to study the dynamical processes that govern the
  architecture of close multiple systems.

---------------------------------------------------------
Title: 4-D Imaging and Modeling of Eta Carinae's Inner Fossil Wind
    Structures
Authors: Madura, Thomas I.; Gull, Theodore; Teodoro, Mairan; Clementel,
   Nicola; Corcoran, Michael; Damineli, Augusto; Groh, Jose; Hamaguchi,
   Kenji; Hillier, D. John; Moffat, Anthony; Richardson, Noel; Weigelt,
   Gerd; Lindler, Don; Feggans, Keith
2017IAUS..329..420M    Altcode:
  Eta Carinae is the most massive active binary within 10,000
  light-years and is famous for the largest non-terminal stellar
  explosion ever recorded. Observations reveal that the supermassive
  (~120 M<SUB>⊙</SUB>) binary, consisting of an LBV and either a
  WR or extreme O star, undergoes dramatic changes every 5.54 years
  due to the stars' very eccentric orbits (e ~ 0.9). Many of these
  changes are caused by a dynamic wind-wind collision region (WWCR)
  between the stars, plus expanding fossil WWCRs formed one, two, and
  three 5.54-year cycles ago. The fossil WWCRs can be spatially and
  spectrally resolved by the Hubble Space Telescope/Space Telescope
  Imaging Spectrograph (HST/STIS). Starting in June 2009, we used the
  HST/STIS to spatially map Eta Carinae's fossil WWCRs across one full
  orbit, following temporal changes in several forbidden emission lines
  (e.g. [Feiii] 4659 Å, [Feii] 4815 Å), creating detailed data cubes
  at multiple epochs. Multiple wind structures were imaged, revealing
  details about the binary's orbital motion, photoionization properties,
  and recent (~5 - 15 year) mass-loss history. These observations allow
  us to test 3-D hydrodynamical and radiative-transfer models of the
  interacting winds. Our observations and models strongly suggest that
  the wind and photoionization properties of Eta Carinae's binary have
  not changed substantially over the past several orbital cycles. They
  also provide a baseline for following future changes in Eta Carinae,
  essential for understanding the late-stage evolution of this nearby
  supernova progenitor. For more details, see Gull et al. (2016) and
  references therein.

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Title: The wind-wind collision hole in eta Car
Authors: Damineli, A.; Teodoro, M.; Richardson, N. D.; Gull, T. R.;
   Corcoran, M. F.; Hamaguchi, K.; Groh, J. H.; Weigelt, G.; Hillier,
   D. J.; Russell, C.; Moffat, A.; Pollard, K. R.; Madura, T. I.
2017IAUS..329..186D    Altcode:
  Eta Carinae is one of the most massive observable binaries. Yet
  determination of its orbital and physical parameters is hampered by
  obscuring winds. However the effects of the strong, colliding winds
  changes with phase due to the high orbital eccentricity. We wanted
  to improve measures of the orbital parameters and to determine the
  mechanisms that produce the relatively brief, phase-locked minimum
  as detected throughout the electromagnetic spectrum. We conducted
  intense monitoring of the He ii λ4686 line in η Carinae for 10
  months in the year 2014, gathering ~300 high S/N spectra with ground-
  and space-based telescopes. We also used published spectra at the
  FOS4 SE polar region of the Homunculus, which views the minimum from
  a different direction. We used a model in which the He ii λ4686
  emission is produced by two mechanisms: a) one linked to the intensity
  of the wind-wind collision which occurs along the whole orbit and
  is proportional to the inverse square of the separation between the
  companion stars; and b) the other produced by the `bore hole' effect
  which occurs at phases across the periastron passage. The opacity
  (computed from 3D SPH simulations) as convolved with the emission
  reproduces the behavior of equivalent widths both for direct and
  reflected light. Our main results are: a) a demonstration that the
  He ii λ4686 light curve is exquisitely repeatable from cycle to
  cycle, contrary to previous claims for large changes; b) an accurate
  determination of the longitude of periastron, indicating that the
  secondary star is `behind' the primary at periastron, a dispute extended
  over the past decade; c) a determination of the time of periastron
  passage, at ~4 days after the onset of the deep light curve minimum;
  and d) show that the minimum is simultaneous for observers at different
  lines of sight, indicating that it is not caused by an eclipse of the
  secondary star, but rather by the immersion of the wind-wind collision
  interior to the inner wind of the primary.

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Title: Gas dynamics in the inner few AU around the Herbig B[e]
    star MWC297. Indications of a disk wind from kinematic modeling and
    velocity-resolved interferometric imaging
Authors: Hone, Edward; Kraus, Stefan; Kreplin, Alexander; Hofmann,
   Karl-Heinz; Weigelt, Gerd; Harries, Tim; Kluska, Jacques
2017A&A...607A..17H    Altcode: 2017arXiv170908467H
  <BR /> Aims: Circumstellar accretion disks and outflows play
  an important role in star formation. By studying the continuum
  and Brγ-emitting region of the Herbig B[e] star MWC297 with
  high-spectral and high-spatial resolution we aim to gain insight into
  the wind-launching mechanisms in young stars. <BR /> Methods: We present
  near-infrared AMBER (R = 12 000) and CRIRES (R = 100 000) observations
  of the Herbig B[e] star MWC297 in the hydrogen Brγ-line. Using the
  VLTI unit telescopes, we obtained a uv-coverage suitable for aperture
  synthesis imaging. We interpret our velocity-resolved images as well
  as the derived two-dimensional photocenter displacement vectors,
  and fit kinematic models to our visibility and phase data in order
  to constrain the gas velocity field on sub-AU scales. <BR /> Results:
  The measured continuum visibilities constrain the orientation of the
  near-infrared-emitting dust disk, where we determine that the disk
  major axis is oriented along a position angle of 99.6 ± 4.8°. The
  near-infrared continuum emission is 3.6 × more compact than the
  expected dust-sublimation radius, possibly indicating the presence
  of highly refractory dust grains or optically thick gas emission in
  the inner disk. Our velocity-resolved channel maps and moment maps
  reveal the motion of the Brγ-emitting gas in six velocity channels,
  marking the first time that kinematic effects in the sub-AU inner
  regions of a protoplanetary disk could be directly imaged. We find a
  rotation-dominated velocity field, where the blue- and red-shifted
  emissions are displaced along a position angle of 24° ± 3° and
  the approaching part of the disk is offset west of the star. The
  visibility drop in the line as well as the strong non-zero phase
  signals can be modeled reasonably well assuming a Keplerian velocity
  field, although this model is not able to explain the 3σ difference
  that we measure between the position angle of the line photocenters
  and the position angle of the dust disk. We find that the fit can be
  improved by adding an outflowing component to the velocity field,
  as inspired by a magneto-centrifugal disk-wind scenario. <BR />
  Conclusions: This study combines spectroscopy, spectroastrometry, and
  high-spectral dispersion interferometric, providing yet the tightest
  constraints on the distribution and kinematics of Brγ-emitting gas in
  the inner few AU around a young star. All observables can be modeled
  assuming a disk wind scenario. Our simulations show that adding a
  poloidal velocity component causes the perceived system axis to shift,
  offering a powerful new diagnostic for detecting non-Keplerian velocity
  components in other systems. <P />Based on observations made with ESO
  Telescopes at the La Silla Paranal Observatory under programme IDs
  081.D-0230, 083.C-0590, 089.C-0959, and 089.C-0563.

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Title: Vigorous atmospheric motion in the red supergiant star Antares
Authors: Ohnaka, K.; Weigelt, G.; Hofmann, K. -H.
2017Natur.548..310O    Altcode: 2017arXiv170806372O
  Red supergiant stars represent a late stage of the evolution of
  stars more massive than about nine solar masses, in which they
  develop complex, multi-component atmospheres. Bright spots have been
  detected in the atmosphere of red supergiants using interferometric
  imaging. Above the photosphere of a red supergiant, the molecular
  outer atmosphere extends up to about two stellar radii. Furthermore,
  the hot chromosphere (5,000 to 8,000 kelvin) and cool gas (less than
  3,500 kelvin) of a red supergiant coexist at about three stellar
  radii. The dynamics of such complex atmospheres has been probed by
  ultraviolet and optical spectroscopy. The most direct approach,
  however, is to measure the velocity of gas at each position over
  the image of stars as in observations of the Sun. Here we report the
  mapping of the velocity field over the surface and atmosphere of the
  nearby red supergiant Antares. The two-dimensional velocity field
  map obtained from our near-infrared spectro-interferometric imaging
  reveals vigorous upwelling and downdrafting motions of several huge
  gas clumps at velocities ranging from about -20 to +20 kilometres
  per second in the atmosphere, which extends out to about 1.7 stellar
  radii. Convection alone cannot explain the observed turbulent motions
  and atmospheric extension, suggesting that an unidentified process is
  operating in the extended atmosphere.

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Title: Numerical simulations and infrared spectro-interferometry
    reveal the wind collision region in γ<SUP>2</SUP> Velorum
Authors: Lamberts, A.; Millour, F.; Liermann, A.; Dessart, L.; Driebe,
   T.; Duvert, G.; Finsterle, W.; Girault, V.; Massi, F.; Petrov, R. G.;
   Schmutz, W.; Weigelt, G.; Chesneau, O.
2017MNRAS.468.2655L    Altcode: 2017arXiv170101124L
  Colliding stellar winds in massive binary systems have been studied
  through their radio, optical lines and strong X-ray emission
  for decades. More recently, near-infrared spectro-interferometric
  observations have become available in a few systems, but isolating the
  contribution from the individual stars and the wind collision region
  still remains a challenge. In this paper, we study the colliding
  wind binary γ<SUP>2</SUP> Velorum and aim at identifying the wind
  collision zone from infrared interferometric data, which provide unique
  spatial information to determine the wind properties. Our analysis is
  based on multi-epoch Very Large Telescope Interferometer/Astronomical
  Multi-BEam Recombiner (VLTI/AMBER) data that allows us to separate
  the spectral components of both stars. First, we determine the
  astrometric solution of the binary and confirm previous distance
  measurements. We then analyse the spectra of the individual stars,
  showing that the O star spectrum is peculiar within its class. Then,
  we perform three-dimensional hydrodynamic simulations of the system
  from which we extract model images, visibility curves and closure phases
  that can be directly compared with the observed data. The hydrodynamic
  simulations reveal the 3D spiral structure of the wind collision region,
  which results in phase-dependent emission maps. Our model visibility
  curves and closure phases provide a good match when the wind collision
  region accounts for 3-10 per cent γ<SUP>2</SUP> Vel's total flux
  in the near-infrared. The dialogue between hydrodynamic simulations,
  radiative transfer models and observations allows us to fully exploit
  the observations. Similar efforts will be crucial to study circumstellar
  environments with the new generation of VLTI instruments like GRAVITY
  and MATISSE.

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Title: Aperture synthesis imaging of the carbon AGB star R
    Sculptoris. Detection of a complex structure and a dominating spot
    on the stellar disk
Authors: Wittkowski, M.; Hofmann, K. -H.; Höfner, S.; Le Bouquin,
   J. B.; Nowotny, W.; Paladini, C.; Young, J.; Berger, J. -P.; Brunner,
   M.; de Gregorio-Monsalvo, I.; Eriksson, K.; Hron, J.; Humphreys,
   E. M. L.; Lindqvist, M.; Maercker, M.; Mohamed, S.; Olofsson, H.;
   Ramstedt, S.; Weigelt, G.
2017A&A...601A...3W    Altcode: 2017arXiv170202574W
  <BR /> Aims: We present near-infrared interferometry of the carbon-rich
  asymptotic giant branch (AGB) star R Sculptoris (R Scl). <BR /> Methods:
  We employ medium spectral resolution K-band interferometry obtained with
  the instrument AMBER at the Very Large Telescope Interferometer (VLTI)
  and H-band low spectral resolution interferometric imaging observations
  obtained with the VLTI instrument PIONIER. We compare our data to a
  recent grid of dynamic atmosphere and wind models. We compare derived
  fundamental parameters to stellar evolution models. <BR /> Results:
  The visibility data indicate a broadly circular resolved stellar disk
  with a complex substructure. The observed AMBER squared visibility
  values show drops at the positions of CO and CN bands, indicating that
  these lines form in extended layers above the photosphere. The AMBER
  visibility values are best fit by a model without a wind. The PIONIER
  data are consistent with the same model. We obtain a Rosseland angular
  diameter of 8.9 ± 0.3 mas, corresponding to a Rosseland radius of 355
  ± 55 R<SUB>⊙</SUB>, an effective temperature of 2640 ± 80 K, and a
  luminosity of log L/L<SUB>⊙</SUB> = 3.74 ± 0.18. These parameters
  match evolutionary tracks of initial mass 1.5 ± 0.5 M<SUB>⊙</SUB>
  and current mass 1.3 ± 0.7 M<SUB>⊙</SUB>. The reconstructed PIONIER
  images exhibit a complex structure within the stellar disk including
  a dominant bright spot located at the western part of the stellar
  disk. The spot has an H-band peak intensity of 40% to 60% above the
  average intensity of the limb-darkening-corrected stellar disk. The
  contrast between the minimum and maximum intensity on the stellar
  disk is about 1:2.5. <BR /> Conclusions: Our observations are broadly
  consistent with predictions by dynamic atmosphere and wind models,
  although models with wind appear to have a circumstellar envelope
  that is too extended compared to our observations. The detected
  complex structure within the stellar disk is most likely caused by
  giant convection cells, resulting in large-scale shock fronts, and
  their effects on clumpy molecule and dust formation seen against
  the photosphere at distances of 2-3 stellar radii. <P />Based on
  observations made with the VLT Interferometry (VLTI) at Paranal
  Observatory under programme IDs 090.D-0136, 093.D-0015, 096.D-0720.

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Title: Accretion Disks, Magnetospheres, and Disk Winds as Emitters
    of the Hydrogen Lines in Herbig Ae/Be Stars
Authors: Tambovtseva, L. V.; Grinin, V. P.; Weigelt, G.; Schertl,
   D.; Hofmann, K. -H.; Caratti o Garatti, A.; Garcia Lopez, R.
2017ASPC..508...67T    Altcode:
  Various disk and outflow components of the circumstellar environment
  of young Herbig Ae/Be stars may contribute to the hydrogen line
  emission. These are a magnetosphere, a disk wind, and a gaseous
  accretion disk. Non-LTE modeling was performed to show the influence of
  the model parameters on the intensity and the line profiles for each
  emitting region to present the spatial distribution of the brightness
  for each component and to compare their contributions to the total
  line emission. The modeling shows that the disk wind is the dominant
  contributor to the Brγ and Hα lines rather than the magnetospheric
  accretion and gaseous accretion disk.

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Title: TYC 8241 2652 1 and the case of the disappearing disk: No
    smoking gun yet
Authors: Günther, Hans Moritz; Kraus, Stefan; Melis, Carl; Curé,
   Michel; Harries, Tim; Ireland, Michael; Kanaan, Samer; Poppenhaeger,
   Katja; Rizzuto, Aaron; Rodriguez, David; Schneider, Christian P.;
   Sitko, Michael; Weigelt, Gerd; Willson, Matthew; Wolk, Scott
2017A&A...598A..82G    Altcode: 2016arXiv161101371G
  Context. TYC8241 2652 1 is a young star that showed a strong
  mid-infrared (mid-IR, 8-25 μm) excess in all observations before
  2008, which is consistent with a dusty disk. Between 2008 and 2010
  the mid-IR luminosity of this system dropped dramatically by at
  least a factor of 30 suggesting a loss of dust mass of an order of
  magnitude or more. <BR /> Aims: We aim to constrain possible models
  including the removal of disk material by stellar activity processes,
  the presence of a binary companion, or other explanations suggested
  in the literature. <BR /> Methods: We present new X-ray observations,
  optical spectroscopy, near-IR interferometry, and mid-IR photometry of
  this system to constrain its parameters and further explore the cause
  of the dust mass loss. <BR /> Results: In X-rays TYC8241 2652 1 has
  all the properties expected from a young star: Its luminosity is in
  the saturation regime and the abundance pattern shows enhancement of
  O/Fe. The photospheric Hα line is filled with a weak emission feature,
  indicating chromospheric activity that is consistent with the observed
  level of coronal emission. Interferometry does not detect a companion
  and sets upper limits on the companion mass of 0.2, 0.35, 0.1, and
  0.05 M<SUB>⊙</SUB> at projected physical separations of 0.1-4 AU,
  4-5 AU, 5-10 AU, and 10-30 AU, respectively (assuming a distance of
  120.9 pc). Our mid-IR measurements, the first of the system since 2012,
  are consistent with the depleted dust level seen after 2009. <BR />
  Conclusions: The new data confirm that stellar activity is unlikely to
  destroy the dust in the disk and shows that scenarios, in which either
  TYC8241 2652 1 heats the disk of a binary companion or a potential
  companion heats the disk of TYC8241 2652 1, are unlikely. <P />Based
  on observations made with ESO telescopes at the Paranal Observatory
  (ESO program IDs 090.C-0697(A), 090.C-0904(A), and 095.C-0438(A)) and
  on observations obtained with XMM-Newton, an ESA science mission with
  instruments and contributions directly funded by ESA Member States
  and NASA.

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Title: A High-mass Protobinary System with Spatially Resolved
    Circumstellar Accretion Disks and Circumbinary Disk
Authors: Kraus, S.; Kluska, J.; Kreplin, A.; Bate, M.; Harries, T. J.;
   Hofmann, K. -H.; Hone, E.; Monnier, J. D.; Weigelt, G.; Anugu, A.;
   de Wit, W. J.; Wittkowski, M.
2017ApJ...835L...5K    Altcode: 2016arXiv161207804K
  High-mass multiples might form via fragmentation of self-gravitational
  disks or alternative scenarios such as disk-assisted capture. However,
  only a few observational constraints exist on the architecture
  and disk structure of high-mass protobinaries and their accretion
  properties. Here, we report the discovery of a close (57.9 ± 0.2
  mas = 170 au) high-mass protobinary, IRAS17216-3801, where our
  VLTI/GRAVITY+AMBER near-infrared interferometry allows us to image
  the circumstellar disks around the individual components with ∼3
  mas resolution. We estimate the component masses to ∼20 and ∼18
  M<SUB>⊙</SUB> and find that the radial intensity profiles can be
  reproduced with an irradiated disk model, where the inner regions
  are excavated of dust, likely tracing the dust sublimation region in
  these disks. The circumstellar disks are strongly misaligned with
  respect to the binary separation vector, which indicates that the
  tidal forces did not have time to realign the disks, pointing toward
  a young dynamical age of the system. We constrain the distribution of
  the Brγ and CO-emitting gas using VLTI/GRAVITY spectro-interferometry
  and VLT/CRIRES spectro-astrometry and find that the secondary is
  accreting at a higher rate than the primary. VLT/NACO imaging shows
  L‧-band emission on (3-4)× larger scales than the binary separation,
  matching the expected dynamical truncation radius for the circumbinary
  disk. The IRAS17216-3801 system is ∼3× more massive and ∼5× more
  compact than other high-mass multiplies imaged at infrared wavelength
  and the first high-mass protobinary system where circumstellar and
  circumbinary dust disks could be spatially resolved. This opens
  exciting new opportunities for studying star-disk interactions and
  the role of multiplicity in high-mass star formation. <P />Based
  on observations made with ESO telescopes at Paranal Observatory
  under program IDs 60.A-9174(A), 089.C-0819(A,C), 089.C-0959(D,E),
  094.C-0153(A), 096.C-0652(A).

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Title: Clumpy dust clouds and extended atmosphere of the AGB star
    W Hydrae revealed with VLT/SPHERE-ZIMPOL and VLTI/AMBER. II. Time
    variations between pre-maximum and minimum light
Authors: Ohnaka, K.; Weigelt, G.; Hofmann, K. -H.
2017A&A...597A..20O    Altcode: 2016A&A...597A..20O; 2016arXiv161104622O
  <BR /> Aims: Our recent visible polarimetric images of the
  well-studied AGB star W Hya taken at pre-maximum light (phase 0.92) with
  VLT/SPHERE-ZIMPOL have revealed clumpy dust clouds close to the star at
  2 R<SUB>⋆</SUB>. We present second-epoch SPHERE-ZIMPOL observations of
  W Hya at minimum light (phase 0.54) as well as high-spectral resolution
  long-baseline interferometric observations with the AMBER instrument
  at the Very Large Telescope Interferometer (VLTI). <BR /> Methods:
  We observed W Hya with VLT/SPHERE-ZIMPOL at three wavelengths in the
  continuum (645, 748, and 820 nm), in the Hα line at 656.3 nm, and in
  the TiO band at 717 nm. The VLTI/AMBER observations were carried out
  in the wavelength region of the CO first overtone lines near 2.3 μm
  with a spectral resolution of 12 000. <BR /> Results: The high-spatial
  resolution polarimetric images obtained with SPHERE-ZIMPOL have allowed
  us to detect clear time variations in the clumpy dust clouds as close
  as 34-50 mas (1.4-2.0 R<SUB>⋆</SUB>) to the star. We detected
  the formation of a new dust cloud as well as the disappearance of
  one of the dust clouds detected at the first epoch. The Hα and TiO
  emission extends to 150 mas ( 6 R<SUB>⋆</SUB>), and the Hα images
  obtained at two epochs reveal time variations. The degree of linear
  polarization measured at minimum light, which ranges from 13 to 18%,
  is higher than that observed at pre-maximum light. The power-law-type
  limb-darkened disk fit to the AMBER data in the continuum results in
  a limb-darkened disk diameter of 49.1 ± 1.5 mas and a limb-darkening
  parameter of 1.16 ± 0.49, indicating that the atmosphere is more
  extended with weaker limb-darkening compared to pre-maximum light. Our
  Monte Carlo radiative transfer modeling shows that the second-epoch
  SPHERE-ZIMPOL data can be explained by a shell of 0.1 μm grains
  of Al<SUB>2</SUB>O<SUB>3</SUB>, Mg<SUB>2</SUB>SiO<SUB>4</SUB>, and
  MgSiO<SUB>3</SUB> with a 550 nm optical depth of 0.6 ± 0.2 and an inner
  and outer radii of 1.3 R<SUB>⋆</SUB> and 10 ± 2R<SUB>⋆</SUB>,
  respectively. Our modeling suggests the predominance of small (0.1
  μm) grains at minimum light, in marked contrast to the predominance
  of large (0.5 μm) grains at pre-maximum light. <BR /> Conclusions:
  The variability phase dependence of the characteristic grain size
  implies that small grains might just have started to form at minimum
  light in the wake of a shock, while the pre-maximum light phase might
  have corresponded to the phase of efficient grain growth. <P />Based
  on SPHERE and AMBER observations made with the Very Large Telescope
  and Very Large Telescope Interferometer of the European Southern
  Observatory. Program ID: 095.D-0397(B) and 092.D-0461(A).

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Title: The fossil wind structures of Eta Carinae: changes across
    one 5.54-yr cycle
Authors: Gull, Theodore R.; Madura, Thomas I.; Teodoro, Mairan;
   Clementel, Nicola; Corcoran, Michael; Damineli, Augusto; Groh, Jose H.;
   Hamaguchi, Kenji; Hillier, D. John; Moffat, Anthony F. J.; Richardson,
   Noel D.; Weigelt, Gerd; Lindler, Don; Feggans, Keith
2016MNRAS.462.3196G    Altcode: 2016arXiv160806193G
  Eta Carinae, the closest, active, massive binary containing a highly
  unstable Luminous Blue Variable, exhibits expanding, compressed wind
  shells, seen in emission, that are spatially and spectrally resolved by
  Hubble Space Telescope/Space Telescope Imaging Spectrograph. Starting
  in 2009 June, these structures were mapped across its 5.54-yr, highly
  elliptical, binary orbit to follow temporal changes in the light of
  [Fe III] 4659 Å and [Fe II] 4815 Å. The emissions trace portions of
  fossil wind shells, that were formed by wind-wind interactions across
  each cycle. Over the high-ionization state, dense arcs, photoionized
  by far-ultraviolet radiation from the hot secondary, are seen in
  [Fe III]. Other arcs, ionized by mid-ultraviolet radiation from the
  primary star, are seen in [Fe II]. The [Fe III] structures tend to be
  interior to [Fe II] structures that trace extensive, less disturbed
  primary wind. During the brief periastron passage when the secondary
  plunges deep into the primary's extremely dense wind, on the far side
  of primary star, high-ionization [Fe III] structures fade and reappear
  in [Fe II]. Multiple fossil wind structures were traced across the
  5.7-yr monitoring interval. The strong similarity of the expanding
  [Fe II] shells suggests that the wind and photoionization properties
  of the massive binary have not changed substantially from one orbit
  to the next over the past several orbital cycles. These observations
  trace structures that can be used to test 3D hydrodynamical and
  radiative-transfer models of massive, interacting winds. They also
  provide a baseline for following future changes in η Car, especially
  of its winds and photoionization properties.

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Title: V346 Normae: first post-outburst observations of an FU
    Orionis star
Authors: Kraus, S.; Caratti o Garatti, A.; Garcia-Lopez, R.; Kreplin,
   A.; Aarnio, A.; Monnier, J. D.; Naylor, T.; Weigelt, G.
2016MNRAS.462L..61K    Altcode: 2016arXiv160703114K
  During their formation phase, stars gain most of their mass in
  violent episodic accretion events, such as observed in FU Orionis
  (FUor) and EXor stars. V346 Normae is a well-studied FUor that
  underwent a strong outburst beginning around 1980. Here, we report
  on photometric and spectroscopic observations, which show that the
  visual/near-infrared brightness has decreased dramatically between
  the 1990s and 2010 (ΔR ≈ 10.9 mag, ΔJ ≈ 7.8 mag and ΔK ≈ 5.8
  mag). The spectral properties of this fading event cannot be explained
  by variable extinction alone, but indicate a drop in accretion rate
  by two to three orders of magnitude. This is the first time that
  a member of the FUor class has been observed to switch to a very
  low accretion phase. Remarkably, in the last few years (2011-2015)
  V346 Nor has brightened again at all near-infrared wavelengths,
  indicating the onset of a new outburst event. The observed behaviour
  might be consistent with the clustered luminosity bursts that have been
  predicted by recent gravitational instability and fragmentation models
  for the early stages of protostellar evolution. Given V346 Nor's unique
  characteristics (concerning outburst duration, repetition frequency
  and spectroscopic diagnostics), our results also highlight the need
  to revisit the FUor/EXor classification scheme.

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Title: VLTI-AMBER velocity-resolved aperture-synthesis imaging of η
    Carinae with a spectral resolution of 12 000. Studies of the primary
    star wind and innermost wind-wind collision zone
Authors: Weigelt, G.; Hofmann, K. -H.; Schertl, D.; Clementel, N.;
   Corcoran, M. F.; Damineli, A.; de Wit, W. -J.; Grellmann, R.; Groh,
   J.; Guieu, S.; Gull, T.; Heininger, M.; Hillier, D. J.; Hummel,
   C. A.; Kraus, S.; Madura, T.; Mehner, A.; Mérand, A.; Millour, F.;
   Moffat, A. F. J.; Ohnaka, K.; Patru, F.; Petrov, R. G.; Rengaswamy,
   S.; Richardson, N. D.; Rivinius, T.; Schöller, M.; Teodoro, M.;
   Wittkowski, M.
2016A&A...594A.106W    Altcode: 2016arXiv161005438W
  Context. The mass loss from massive stars is not understood
  well. <ASTROBJ>η Carinae</ASTROBJ> is a unique object for studying
  the massive stellar wind during the luminous blue variable phase. It
  is also an eccentric binary with a period of 5.54 yr. The nature
  of both stars is uncertain, although we know from X-ray studies
  that there is a wind-wind collision whose properties change with
  orbital phase. <BR /> Aims: We want to investigate the structure and
  kinematics of η Car's primary star wind and wind-wind collision
  zone with a high spatial resolution of ~6 mas (~14 au) and high
  spectral resolution of R = 12 000. <BR /> Methods: Observations of
  <ASTROBJ>η Car</ASTROBJ> were carried out with the ESO Very Large
  Telescope Interferometer (VLTI) and the AMBER instrument between
  approximately five and seven months before the August 2014 periastron
  passage. Velocity-resolved aperture-synthesis images were reconstructed
  from the spectrally dispersed interferograms. Interferometric studies
  can provide information on the binary orbit, the primary wind, and
  the wind collision. <BR /> Results: We present velocity-resolved
  aperture-synthesis images reconstructed in more than 100 different
  spectral channels distributed across the Brγ 2.166 μm emission
  line. The intensity distribution of the images strongly depends
  on wavelength. At wavelengths corresponding to radial velocities of
  approximately -140 to - 376 km s<SUP>-1</SUP> measured relative to line
  center, the intensity distribution has a fan-shaped structure. At
  the velocity of - 277 km s<SUP>-1</SUP>, the position angle of
  the symmetry axis of the fan is ~126°. The fan-shaped structure
  extends approximately 8.0 mas (~18.8 au) to the southeast and 5.8
  mas (~13.6 au) to the northwest, measured along the symmetry axis at
  the 16% intensity contour. The shape of the intensity distributions
  suggests that the obtained images are the first direct images of
  the innermost wind-wind collision zone. Therefore, the observations
  provide velocity-dependent image structures that can be used to
  test three-dimensional hydrodynamical, radiative transfer models of
  the massive interacting winds of η Car. <P />Based on observations
  collected at the European Organisation for Astronomical Research in the
  Southern Hemisphere under ESO program 092.D-0289(A).The reconstructed
  digital images are only available at the CDS via anonymous ftp to
  <A href="http://cdsarc.u-strasbg.fr">http://cdsarc.u-strasbg.fr</A>
  (<A href="http://130.79.128.5">http://130.79.128.5</A>) or via <A
  href="http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/594/A106">http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/594/A106</A>

---------------------------------------------------------
Title: VizieR Online Data Catalog: eta Car velocity-resolved imaging
    (Weigelt+, 2016)
Authors: Weigelt, G.; Hofmann, K. -H.; Schertl, D.; Clementel, N.;
   Corcoran, M. F.; Damineli, A.; de Wit, W. -J.; Grellmann, R.; Groh,
   J.; Guieu, S.; Gull, T.; Heininger, M.; Hillier, D. J.; Hummel,
   C. A.; Kraus, S.; Madura, T.; Mehner, A.; Merand, A.; Millour, F.;
   Moffat, A. F. J.; Ohnaka, K.; Patru, F.; Petrov, R. G.; Rengaswamy,
   S.; Richardson, N. D.; Rivinius, T.; Schoeller, M.; Teodoro, M.;
   Wittkowski, M.
2016yCat..35940106W    Altcode:
  We present the reconstructed images from Fig. 4 of the paper. The
  interferometric data were taken with the ESO VLTI and the AMBER
  instrument with high spectral resolution (R=12000) in many spectral
  channels across the Brackett Gamma line at 2.166 micron. <P />96 images
  were reconstructed at velocity channels from -663km/s to 520km/s. <P
  />The velocity of each channel is coded into the filename. <P />Plate
  scale is 0.781mas/pixel. North is up, and east to the left. FOV is
  50mas. <P />The resolution of the images is ~6 mas. <P />(2 data files).

---------------------------------------------------------
Title: Grown-up stars physics with MATISSE
Authors: Millour, F.; Hron, J.; Chiavassa, A.; Weigelt, G.; Soulain,
   A.; Khorrami, Z.; Meilland, A.; Nardetto, N.; Paladini, C.; Domiciano
   de Souza, A.; Niccolini, G.; Hofmann, K. -H.; Schertl, D.; Stee, P.;
   Bendjoya, P.; Thévenin, F.; Vakili, F.; Berio, P.; Lanz, T.; Matter,
   A.; Cruzalèbes, P.; Petrov, R.; Lopez, B.
2016SPIE.9907E..3QM    Altcode: 2016arXiv160702393M
  MATISSE represents a great opportunity to image the environment around
  massive and evolved stars. This will allow one to put constraints
  on the circumstellar structure, on the mass ejection of dust and its
  reorganization, and on the dust-nature and formation processes. MATISSE
  measurements will often be pivotal for the understanding of large
  multiwavelength datasets on the same targets collected through
  many high-angular resolution facilities at ESO like sub-millimeter
  interferometry (ALMA), near-infrared adaptive optics (NACO, SPHERE),
  interferometry (PIONIER, GRAVITY), spectroscopy (CRIRES), and
  mid-infrared imaging (VISIR). Among main sequence and evolved stars,
  several cases of interest have been identified that we describe in
  this paper.

---------------------------------------------------------
Title: An overview of the mid-infrared spectro-interferometer MATISSE:
    science, concept, and current status
Authors: Matter, A.; Lopez, B.; Antonelli, P.; Lehmitz, M.; Bettonvil,
   F.; Beckmann, U.; Lagarde, S.; Jaffe, W.; Petrov, R.; Berio, P.;
   Millour, F.; Robbe-Dubois, S.; Glindemann, A.; Bristow, P.; Schoeller,
   M.; Lanz, T.; Henning, T.; Weigelt, G.; Heininger, M.; Morel, S.;
   Cruzalebes, P.; Meisenheimer, K.; Hofferbert, R.; Wolf, S.; Bresson,
   Y.; Agocs, T.; Allouche, F.; Augereau, J. -C.; Avila, G.; Bailet, C.;
   Behrend, J.; van Belle, G.; Berger, J. -P.; van Boekel, R.; Bourget,
   P.; Brast, R.; Clausse, J. -M.; Connot, C.; Conzelmann, R.; Csepany,
   G.; Danchi, W. C.; Delbo, M.; Dominik, C.; van Duin, A.; Elswijk, E.;
   Fantei, Y.; Finger, G.; Gabasch, A.; Gonté, F.; Graser, U.; Guitton,
   F.; Guniat, S.; De Haan, M.; Haguenauer, P.; Hanenburg, H.; Hofmann,
   K. -H.; Hogerheijde, M.; ter Horst, R.; Hron, J.; Hummel, C.; Isderda,
   J.; Ives, D.; Jakob, G.; Jasko, A.; Jolley, P.; Kiraly, S.; Kragt,
   J.; Kroener, T.; Kroes, G.; Kuindersma, S.; Labadie, L.; Laun, W.;
   Leinert, C.; Lizon, J. -L.; Lucuix, C.; Marcotto, A.; Martinache,
   F.; Martinot-Lagarde, G.; Mauclert, N.; Mehrgan, L.; Meilland, A.;
   Mellein, M.; Menardi, S.; Merand, A.; Neumann, U.; Nussbaum, E.;
   Ottogalli, S.; Palsa, R.; Panduro, J.; Pantin, E.; Percheron, I.;
   Phan Duc, T.; Pott, J. -U.; Pozna, E.; Roelfsema, R.; Rupprecht, G.;
   Schertl, D.; Schmidt, C.; Schuil, M.; Spang, A.; Stegmeier, J.; Tromp,
   N.; Vakili, F.; Vannier, M.; Wagner, K.; Venema, L.; Woillez, J.
2016SPIE.9907E..0AM    Altcode: 2016arXiv160802350M
  MATISSE is the second-generation mid-infrared spectrograph and imager
  for the Very Large Telescope Interferometer (VLTI) at Paranal. This
  new interferometric instrument will allow significant advances by
  opening new avenues in various fundamental research fields: studying
  the planet-forming region of disks around young stellar objects,
  understanding the surface structures and mass loss phenomena affecting
  evolved stars, and probing the environments of black holes in active
  galactic nuclei. As a first breakthrough, MATISSE will enlarge the
  spectral domain of current optical interferometers by offering the L
  and M bands in addition to the N band. This will open a wide wavelength
  domain, ranging from 2.8 to 13 μm, exploring angular scales as small
  as 3 mas (L band) / 10 mas (N band). As a second breakthrough, MATISSE
  will allow mid-infrared imaging - closure-phase aperture-synthesis
  imaging - with up to four Unit Telescopes (UT) or Auxiliary Telescopes
  (AT) of the VLTI. Moreover, MATISSE will offer a spectral resolution
  range from R ∼ 30 to R ∼ 5000. Here, we present one of the main
  science objectives, the study of protoplanetary disks, that has driven
  the instrument design and motivated several VLTI upgrades (GRA4MAT
  and NAOMI). We introduce the physical concept of MATISSE including
  a description of the signal on the detectors and an evaluation of
  the expected performances. We also discuss the current status of
  the MATISSE instrument, which is entering its testing phase, and the
  foreseen schedule for the next two years that will lead to the first
  light at Paranal.

---------------------------------------------------------
Title: The 2016 interferometric imaging beauty contest
Authors: Sanchez-Bermudez, J.; Thiébaut, E.; Hofmann, K. -H.;
   Heininger, M.; Schertl, D.; Weigelt, G.; Millour, F.; Schutz, A.;
   Ferrari, A.; Vannier, M.; Mary, D.; Young, J.
2016SPIE.9907E..1DS    Altcode:
  Image reconstruction in optical interferometry has gained considerable
  importance for astrophysical studies during the last decade. This has
  been mainly due to improvements in the imaging capabilities of existing
  interferometers and the expectation of new facilities in the coming
  years. However, despite the advances made so far, image synthesis in
  optical interferometry is still an open field of research. Since 2004,
  the community has organized a biennial contest to formally test the
  different methods and algorithms for image reconstruction. In 2016,
  we celebrated the 7th edition of the "Interferometric Imaging Beauty
  Contest". This initiative represented an open call to participate
  in the reconstruction of a selected set of simulated targets with
  a wavelength-dependent morphology as they could be observed by the
  2nd generation of VLTI instruments. This contest represents a unique
  opportunity to benchmark, in a systematic way, the current advances
  and limitations in the field, as well as to discuss possible future
  approaches. In this contribution, we summarize: (a) the rules of
  the 2016 contest; (b) the different data sets used and the selection
  procedure; (c) the methods and results obtained by each one of the
  participants; and (d) the metric used to select the best reconstructed
  images. Finally, we named Karl-Heinz Hofmann and the group of the
  Max-Planck-Institut fur Radioastronomie as winners of this edition of
  the contest.

---------------------------------------------------------
Title: Planet Formation Imager (PFI): science vision and key
    requirements
Authors: Kraus, Stefan; Monnier, John D.; Ireland, Michael J.;
   Duchêne, Gaspard; Espaillat, Catherine; Hönig, Sebastian; Juhasz,
   Attila; Mordasini, Chris; Olofsson, Johan; Paladini, Claudia; Stassun,
   Keivan; Turner, Neal; Vasisht, Gautam; Harries, Tim J.; Bate, Matthew
   R.; Gonzalez, Jean-François; Matter, Alexis; Zhu, Zhaohuan; Panic,
   Olja; Regaly, Zsolt; Morbidelli, Alessandro; Meru, Farzana; Wolf,
   Sebastian; Ilee, John; Berger, Jean-Philippe; Zhao, Ming; Kral,
   Quentin; Morlok, Andreas; Bonsor, Amy; Ciardi, David; Kane, Stephen
   R.; Kratter, Kaitlin; Laughlin, Greg; Pepper, Joshua; Raymond, Sean;
   Labadie, Lucas; Nelson, Richard P.; Weigelt, Gerd; ten Brummelaar,
   Theo; Pierens, Arnaud; Oudmaijer, Rene; Kley, Wilhelm; Pope, Benjamin;
   Jensen, Eric L. N.; Bayo, Amelia; Smith, Michael; Boyajian, Tabetha;
   Quiroga-Nuñez, Luis Henry; Millan-Gabet, Rafael; Chiavassa, Andrea;
   Gallenne, Alexandre; Reynolds, Mark; de Wit, Willem-Jan; Wittkowski,
   Markus; Millour, Florentin; Gandhi, Poshak; Ramos Almeida, Cristina;
   Alonso Herrero, Almudena; Packham, Chris; Kishimoto, Makoto; Tristram,
   Konrad R. W.; Pott, Jörg-Uwe; Surdej, Jean; Buscher, David; Haniff,
   Chris; Lacour, Sylvestre; Petrov, Romain; Ridgway, Steve; Tuthill,
   Peter; van Belle, Gerard; Armitage, Phil; Baruteau, Clement; Benisty,
   Myriam; Bitsch, Bertram; Paardekooper, Sijme-Jan; Pinte, Christophe;
   Masset, Frederic; Rosotti, Giovanni
2016SPIE.9907E..1KK    Altcode: 2016arXiv160800578K
  The Planet Formation Imager (PFI) project aims to provide a strong
  scientific vision for ground-based optical astronomy beyond the upcoming
  generation of Extremely Large Telescopes. We make the case that a
  breakthrough in angular resolution imaging capabilities is required in
  order to unravel the processes involved in planet formation. PFI will be
  optimised to provide a complete census of the protoplanet population
  at all stellocentric radii and over the age range from 0.1 to 100
  Myr. Within this age period, planetary systems undergo dramatic changes
  and the final architecture of planetary systems is determined. Our goal
  is to study the planetary birth on the natural spatial scale where the
  material is assembled, which is the "Hill Sphere" of the forming planet,
  and to characterise the protoplanetary cores by measuring their masses
  and physical properties. Our science working group has investigated the
  observational characteristics of these young protoplanets as well as
  the migration mechanisms that might alter the system architecture. We
  simulated the imprints that the planets leave in the disk and study how
  PFI could revolutionise areas ranging from exoplanet to extragalactic
  science. In this contribution we outline the key science drivers of PFI
  and discuss the requirements that will guide the technology choices,
  the site selection, and potential science/technology tradeoffs.

---------------------------------------------------------
Title: Imaging capabilities of the VLTI/MATISSE
    spectro-interferometric instrument
Authors: Sanchez-Bermudez, J.; Pott, J. -U.; van Boekel, R.; Henning,
   T.; Baron, F.; Matter, A.; Lopez, B.; Millour, F.; Weigelt, G.;
   Hofmann, K. -H.; Schertl, D.
2016SPIE.9907E..0BS    Altcode:
  During the last decade, the first generation of beam combiners at
  the Very Large Telescope Interferometer has proved the importance
  of optical interferometry for high-angular resolution astrophysical
  studies in the nearand mid-infrared. With the advent of 4-beam
  combiners at the VLTI, the u - v coverage per pointing increases
  significantly, providing an opportunity to use reconstructed images
  as powerful scientific tools. Here, we present our ongoing studies to
  characterize the imaging capabilities of the Multi-AperTure mid-infrared
  SpectroScopic Experiment (MATISSE), a second-generation instrument
  for the Very Large Telescope Interferometer (VLTI). By providing
  simultaneous observations with 6 baselines and spectral resolutions
  up to R 5000. MATISSE will deliver, for the first time, thermal-IR
  interferometric data with enough u-v coverage and phase information
  for imaging. In this work, we report detailed image reconstruction
  studies carried out with the image reconstruction package SQUEEZE. For
  our studies, we use realistic simulated MATISSE data from radiative
  transfer simulations of a proto-planetary disk. In particular,
  we will discuss the role of the regularization function and of the
  initial brightness distribution. MATISSE will perform observations
  at three different mid-infrared bands: L, M and N. Hence, due to its
  large bandwidth, chromatic effects should be taken into account when
  image reconstruction is attempted. We also discuss the capabilities
  of SQUEEZE to perform multi-wavelength image reconstruction. Finally,
  we perform an analysis of the image quality and present our future
  line of research. The work here presented is being carried out within
  the Opticon FP7-2 joint research activity on interferometric imaging.

---------------------------------------------------------
Title: Data reduction for the MATISSE instrument
Authors: Millour, F.; Berio, P.; Heininger, M.; Hofmann, K. -H.;
   Schertl, D.; Weigelt, G.; Guitton, F.; Jaffe, W.; Beckmann, U.;
   Petrov, R.; Allouche, F.; Robbe-Dubois, S.; Lagarde, S.; Soulain,
   A.; Meilland, A.; Matter, A.; Cruzalèbes, P.; Lopez, B.
2016SPIE.9907E..23M    Altcode: 2016arXiv160801913M
  We present in this paper the general formalism and data processing steps
  used in the MATISSE data reduction software, as it has been developed
  by the MATISSE consortium. The MATISSE instrument is the mid-infrared
  new generation interferometric instrument of the Very Large Telescope
  Interferometer (VLTI). It is a 2-in-1 instrument with 2 cryostats and 2
  detectors: one 2k × 2k Rockwell Hawaii 2RG detector for L&amp;M-bands,
  and one 1k × 1k Raytheon Aquarius detector for N-band, both read at
  high framerates, up to 30 frames per second. MATISSE is undergoing
  its first tests in laboratory today.

---------------------------------------------------------
Title: Image reconstruction method IRBis for optical/infrared
    long-baseline interferometry
Authors: Hofmann, Karl-Heinz; Heininger, Matthias; Schertl, Dieter;
   Weigelt, Gerd; Millour, Florentin; Berio, Philippe
2016SPIE.9907E..3HH    Altcode:
  IRBis is an image reconstruction method for optical/infrared
  long-baseline interferometry. IRBis can reconstruct images from (a)
  measured visibilities and closure phases, or from (b) measured complex
  visibilities (i.e. the Fourier phases and visibilities). The applied
  optimization routine ASA CG is based on conjugate gradients. The method
  allows the user to implement different regularizers, as for example,
  maximum entropy, smoothness, total variation, etc., and apply residual
  ratios as an additional metric for goodness-of-fit. In addition, IRBis
  allows the user to change the following reconstruction parameters:
  (a) FOV of the area to be reconstructed, (b) the size of the pixel-grid
  used, (c) size of a binary mask in image space allowing reconstructed
  intensities &lt; 0 within the binary mask only, (d) the strength of
  the regularization, etc. The two main reconstruction parameters are
  the size of the binary mask in image space (c) and the strength of the
  regularization (d). Several values of these two parameters are tested
  within the algorithm. The quality of the different reconstructions
  obtained is roughly estimated by evaluation of the differences between
  the measured data and the reconstructed image (using the reduced
  χ<SUP>2</SUP> values and the residual ratios). The best-quality
  reconstruction and a few reconstructions sorted according to their
  quality are provided to the user as resulting reconstructions. We
  describe the theory of IRBis and will present several applications to
  simulated interferometric data and data of real astronomical objects:
  (a) We have investigated image reconstruction experiments of MATISSE
  target candidates by computer simulations. We have modeled gaps in
  a disk of a young stellar object and have simulated interferometric
  data (squared visibilities and closure phases) with a signal-to-noise
  ratio as expected for MATISSE observations. We have performed image
  reconstruction experiments with this model for different flux levels
  of the target and different amount of observing time, that is, with
  different uv coverages. As expected, the quality of the reconstructions
  clearly depends on the flux of the source and the completeness of
  the uv coverage. (b) We also discuss reconstructions of the Luminous
  Blue Variable η Carinae obtained from AMBER observations in the high
  spectral resolution mode in the K band. The images were reconstruction
  (1) using the closure phases and (2) using the absolute phases derived
  from the measured wavelength-differential phases and the closure phase
  reconstruction in the continuum.

---------------------------------------------------------
Title: Science with MATISSE
Authors: Wolf, Sebastian; Lopez, Bruno; Augereau, Jean-Charles;
   Delbo, Marco; Dominik, Carsten; Henning, Thomas; Hofmann, Karl-Heinz;
   Hogerheijde, Michiel; Hron, Josef; Jaffe, Walter; Lanz, Thierry;
   Meisenheimer, Klaus; Millour, Florentin; Pantin, Eric; Petrov, Roman;
   Schertl, Dieter; van Boekel, Roy; Weigelt, Gerd; Chiavassa, Andrea;
   Juhasz, Attila; Matter, Alexis; Meilland, Anthony; Nardetto, Nicolas;
   Paladini, Claudia
2016SPIE.9907E..3SW    Altcode: 2016arXiv160906152W
  We present an overview of the scientific potential of MATISSE, the
  Multi Aperture mid-Infrared SpectroScopic Experiment for the Very
  Large Telescope Interferometer. For this purpose we outline selected
  case studies from various areas, such as star and planet formation,
  active galactic nuclei, evolved stars, extrasolar planets, and solar
  system minor bodies and discuss strategies for the planning and analysis
  of future MATISSE observations. Moreover, the importance of MATISSE
  observations in the context of complementary high-angular resolution
  observations at near-infrared and submillimeter/millimeter wavelengths
  is highlighted.

---------------------------------------------------------
Title: Brackett γ radiation from the inner gaseous accretion disk,
    magnetosphere, and disk wind region of Herbig AeBe stars
Authors: Tambovtseva, L. V.; Grinin, V. P.; Weigelt, G.
2016A&A...590A..97T    Altcode:
  Various disk and outflow components such as the magnetosphere, the disk
  wind, the gaseous accretion disk, and other regions may contribute to
  the hydrogen line emission of young Herbig AeBe stars. Non-LTE modeling
  was performed to show the influence of the model parameters of each
  emitting region on the intensity and shape of the Brγ line profile,
  to present the spatial brightness distribution of each component,
  and to compare the contribution of each component to the total line
  emission. The modeling shows that the disk wind is the dominant
  contributor to the Brγ line rather than the magnetosphere and inner
  gaseous accretion disk. The contribution of the disk wind region to
  the Hα line is also considered.

---------------------------------------------------------
Title: Tracing jet emission at the base of a high-mass YSO. First
    AMBER/VLTI observations of the Brγ emission in IRAS 13481-6124
Authors: Caratti o Garatti, A.; Stecklum, B.; Weigelt, G.; Schertl,
   D.; Hofmann, K. -H.; Kraus, S.; Oudmaijer, R. D.; de Wit, W. J.;
   Sanna, A.; Garcia Lopez, R.; Kreplin, A.; Ray, T. P.
2016A&A...589L...4C    Altcode: 2016arXiv160306860G; 2016A&A...589L...4G
  <BR /> Aims: To probe the circumstellar environment of IRAS 13481-6124,
  a 20 M<SUB>⊙</SUB> high-mass young stellar object (HMYSO) with a
  collimated parsec-scale jet and an accretion disc, we investigate
  the origin of its Brγ emission line through near-infrared (NIR)
  interferometry. <BR /> Methods: We present the first AMBER/VLTI
  observations of the Brγ emitting region in an HMYSO at medium spectral
  resolution (R = 1500). <BR /> Results: Our AMBER/VLTI observations
  reveal a spatially and spectrally resolved Brγ line in emission with
  a strong P Cygni profile, indicating outflowing matter with a terminal
  velocity of ~500 km s<SUP>-1</SUP>. Visibilities, differential phases,
  and closure phases are detected in our observations within the spectral
  line and in the adjacent continuum. Both total visibilities (continuum
  plus line emitting region) and pure-line visibilities indicate that
  the Brγ-emitting region is more compact (2-4 mas in diameter or ~6-13
  au at 3.2 kpc) than the continuum-emitting region (~5.4 mas or ~17
  au). The absorption feature is also spatially resolved at the longest
  baselines (81 and 85 m) and has a visibility that is slightly smaller
  than the continuum-emitting region. The differential phases at the four
  longest baselines display an "S"-shaped structure across the line,
  peaking in the blue- and red-shifted high-velocity components. The
  calibrated photocentre shifts are aligned with the known jet axis, I.e
  they are probably tracing an ionised jet. The high-velocity components
  (v<SUB>r</SUB> ~ 100-500 km s<SUP>-1</SUP>) are located far from the
  source, whereas the low-velocity components (0-100 km s<SUP>-1</SUP>)
  are observed to be closer, indicating a strong acceleration of the gas
  flow in the inner 10 au. Finally, a non-zero closure phase along the
  continuum is detected. By comparing our observations with the synthetic
  images of the continuum around 2.16 μm, we confirm that this feature
  originates from the asymmetric brightness distribution of the continuum
  owing to the inclination of the inner disc. <P />Based on observations
  collected at the VLT (ESO Paranal, Chile) with programmes 090.C-0371(B).

---------------------------------------------------------
Title: Clumpy dust clouds and extended atmosphere of the AGB star
    W Hydrae revealed with VLT/SPHERE-ZIMPOL and VLTI/AMBER
Authors: Ohnaka, K.; Weigelt, G.; Hofmann, K. -H.
2016A&A...589A..91O    Altcode: 2016arXiv160301197O
  Context. Dust formation is thought to play an important role in the
  mass loss from stars at the asymptotic giant branch (AGB); however,
  where and how dust forms is still open to debate. <BR /> Aims: We
  present visible polarimetric imaging observations of the well-studied
  AGB star W Hya taken with VLT/SPHERE-ZIMPOL as well as high spectral
  resolution long-baseline interferometric observations taken with the
  AMBER instrument at the Very Large Telescope Interferometer (VLTI). Our
  goal is to spatially resolve the dust and molecule formation region
  within a few stellar radii. <BR /> Methods: We observed W Hya with
  VLT/SPHERE-ZIMPOL at three wavelengths in the continuum (645, 748, and
  820 nm), in the Hα line at 656.3 nm, and in the TiO band at 717 nm. The
  VLTI/AMBER observations were carried out in the wavelength region of
  the CO first overtone lines near 2.3 μm with a spectral resolution of
  12000. <BR /> Results: Taking advantage of the polarimetric imaging
  capability of SPHERE-ZIMPOL combined with the superb adaptive optics
  performance, we succeeded in spatially resolving three clumpy dust
  clouds located at ~50 mas (~2 R<SUB>⋆</SUB>) from the central star,
  revealing dust formation very close to the star. The AMBER data
  in the individual CO lines suggest a molecular outer atmosphere
  extending to ~3 R<SUB>⋆</SUB>. Furthermore, the SPHERE-ZIMPOL
  image taken over the Hα line shows emission with a radius of up to
  ~160 mas (~7 R<SUB>⋆</SUB>). We found that dust, molecular gas, and
  Hα-emitting hot gas coexist within 2-3 R<SUB>⋆</SUB>. Our modeling
  suggests that the observed polarized intensity maps can reasonably be
  explained by large (0.4-0.5 μm) grains of Al<SUB>2</SUB>O<SUB>3</SUB>,
  Mg<SUB>2</SUB>SiO<SUB>4</SUB>, or MgSiO<SUB>3</SUB> in an optically
  thin shell (τ<SUB>550nm</SUB> = 0.1 ± 0.02) with an inner and outer
  boundary radius of 1.9-2.0 R<SUB>⋆</SUB> and 3 ± 0.5R<SUB>⋆</SUB>,
  respectively. The observed clumpy structure can be reproduced by a
  density enhancement of a factor of 4 ± 1. <BR /> Conclusions: The grain
  size derived from our modeling of the SPHERE-ZIMPOL polarimetric images
  is consistent with the prediction of the hydrodynamical models for
  the mass loss driven by the scattering due to micron-sized grains. The
  detection of the clumpy dust clouds close to the star lends support to
  the dust formation induced by pulsation and large convective cells as
  predicted by the 3D simulations for AGB stars. <P />Based on SPHERE and
  AMBER observations made with the Very Large Telescope and Very Large
  Telescope Interferometer of the European Southern Observatory. Program
  ID: 095.D-0397(D) and 093.D-0468(A).

---------------------------------------------------------
Title: Resolving the inner disk of UX Orionis
Authors: Kreplin, A.; Madlener, D.; Chen, L.; Weigelt, G.; Kraus,
   S.; Grinin, V.; Tambovtseva, L.; Kishimoto, M.
2016A&A...590A..96K    Altcode:
  <BR /> Aims: The cause of the <ASTROBJ>UX Ori</ASTROBJ> variability
  in some Herbig Ae/Be stars is still a matter of debate. Detailed
  studies of the circumstellar environment of UX Ori objects (UXORs) are
  required to test the hypothesis that the observed drop in photometry
  might be related to obscuration events. <BR /> Methods: Using near-
  and mid-infrared interferometric AMBER and MIDI observations, we
  resolved the inner circumstellar disk region around UX Ori. <BR />
  Results: We fitted the K-, H-, and N-band visibilities and the spectral
  energy distribution (SED) of UX Ori with geometric and parametric disk
  models. The best-fit K-band geometric model consists of an inclined ring
  and a halo component. We obtained a ring-fit radius of 0.45 ± 0.07 AU
  (at a distance of 460 pc), an inclination of 55.6 ± 2.4°, a position
  angle of the system axis of 127.5 ± 24.5°, and a flux contribution
  of the over-resolved halo component to the total near-infrared excess
  of 16.8 ± 4.1%. The best-fit N-band model consists of an elongated
  Gaussian with a HWHM ~ 5 AU of the semi-major axis and an axis ration of
  a/b ~ 3.4 (corresponding to an inclination of ~72°). With a parametric
  disk model, we fitted all near- and mid-infrared visibilities and
  the SED simultaneously. The model disk starts at an inner radius of
  0.46 ± 0.06 AU with an inner rim temperature of 1498 ± 70 K. The
  disk is seen under an nearly edge-on inclination of 70 ± 5°. This
  supports any theories that require high-inclination angles to explain
  obscuration events in the line of sight to the observer, for example,
  in UX Ori objects where orbiting dust clouds in the disk or disk
  atmosphere can obscure the central star. <P />Based on observations
  made with ESO telescopes at Paranal Observatory under program IDs:
  090.C-0769, 074.C-0552.

---------------------------------------------------------
Title: Probing the wind-launching regions of the Herbig Be star HD
    58647 with high spectral resolution interferometry
Authors: Kurosawa, Ryuichi; Kreplin, A.; Weigelt, G.; Natta, A.;
   Benisty, M.; Isella, Andrea; Tatulli, Eric; Massi, F.; Testi, Leonardo;
   Kraus, Stefan; Duvert, G.; Petrov, Romain G.; Stee, Ph.
2016MNRAS.457.2236K    Altcode: 2016arXiv160102209K
  We present a study of the wind-launching region of the Herbig Be star HD
  58647 using high angular (λ/2B = 0.003 arcsec) and high spectral (R =
  12 000) resolution interferometric Very Large Telescope Interferometer
  (VLTI)-Astronomical Multi-Beam combiner (AMBER) observations of
  the near-infrared hydrogen emission line, Brγ. The star displays
  double peaks in both Brγ line profile and wavelength-dependent
  visibilities. The wavelength-dependent differential phases show S-shaped
  variations around the line centre. The visibility level increases
  in the line (by ∼0.1) at the longest projected baseline (88 m),
  indicating that the size of the line emission region is smaller than
  the size of the K-band continuum-emitting region, which is expected
  to arise near the dust sublimation radius of the accretion disc. The
  data have been analysed using radiative transfer models to probe the
  geometry, size and physical properties of the wind that is emitting
  Brγ. We find that a model with a small magnetosphere and a disc wind
  with its inner radius located just outside of the magnetosphere can well
  reproduce the observed Brγ profile, wavelength-dependent visibilities,
  differential and closure phases, simultaneously. The mass-accretion
  and mass-loss rates adopted for the model are dot{M}<SUB>a</SUB>=3.5×
  10^{-7} and dot{M}_{dw}=4.5× 10^{-8} M_{odot yr^{-1}}, respectively
  (dot{M}_{dw}/dot{M}<SUB>a</SUB>=0.13). Consequently, about 60 per cent
  of the angular momentum loss rate required for a steady accretion
  with the measured accretion rate is provided by the disc wind. The
  small magnetosphere in HD 58647 does not contribute to the Brγ line
  emission significantly.

---------------------------------------------------------
Title: He II λ4686 Emission from the Massive Binary System in
η Car: Constraints to the Orbital Elements and the Nature of the
    Periodic Minima
Authors: Teodoro, M.; Damineli, A.; Heathcote, B.; Richardson, N. D.;
   Moffat, A. F. J.; St-Jean, L.; Russell, C.; Gull, T. R.; Madura, T. I.;
   Pollard, K. R.; Walter, F.; Coimbra, A.; Prates, R.; Fernández-Lajús,
   E.; Gamen, R. C.; Hickel, G.; Henrique, W.; Navarete, F.; Andrade,
   T.; Jablonski, F.; Luckas, P.; Locke, M.; Powles, J.; Bohlsen, T.;
   Chini, R.; Corcoran, M. F.; Hamaguchi, K.; Groh, J. H.; Hillier,
   D. J.; Weigelt, G.
2016ApJ...819..131T    Altcode: 2016arXiv160103396T
  Eta Carinae (η Car) is an extremely massive binary system in which
  rapid spectrum variations occur near periastron. Most notably, near
  periastron the He II λ4686 line increases rapidly in strength, drops
  to a minimum value, then increases briefly before fading away. To
  understand this behavior, we conducted an intense spectroscopic
  monitoring of the He II λ4686 emission line across the 2014.6
  periastron passage using ground- and space-based telescopes. Comparison
  with previous data confirmed the overall repeatability of the line
  equivalent width (EW), radial velocities, and the timing of the minimum,
  though the strongest peak was systematically larger in 2014 than
  in 2009 by 26%. The EW variations, combined with other measurements,
  yield an orbital period of 2022.7 ± 0.3 days. The observed variability
  of the EW was reproduced by a model in which the line flux primarily
  arises at the apex of the wind-wind collision and scales inversely
  with the square of the stellar separation, if we account for the
  excess emission as the companion star plunges into the hot inner
  layers of the primary’s atmosphere, and including absorption from the
  disturbed primary wind between the source and the observer. This model
  constrains the orbital inclination to 135°-153°, and the longitude
  of periastron to 234°-252°. It also suggests that periastron passage
  occurred on {T}<SUB>0</SUB>=2456874.4\quad (+/- 1.3 days). Our model
  also reproduced EW variations from a polar view of the primary star
  as determined from the observed He II λ 4686 emission scattered off
  the Homunculus nebula. <P />Based in part on observations made with
  the NASA/ESA Hubble Space Telescope, obtained at the Space Telescope
  Science Institute, which is operated by the Association of Universities
  for Research in Astronomy, Inc., under NASA contract NAS 5-26555. These
  observations are associated with program numbers 11506, 12013, 12508,
  12750, and 13054. Support for program numbers 12013, 12508, and 12750
  was provided by NASA through a grant from the Space Telescope Science
  Institute, which is operated by the Association of Universities for
  Research in Astronomy, Inc., under NASA contract NAS 5-26555.

---------------------------------------------------------
Title: The LEECH Exoplanet Imaging Survey: Characterization of
    the Coldest Directly Imaged Exoplanet, GJ 504 b, and Evidence for
    Superstellar Metallicity
Authors: Skemer, Andrew J.; Morley, Caroline V.; Zimmerman, Neil T.;
   Skrutskie, Michael F.; Leisenring, Jarron; Buenzli, Esther; Bonnefoy,
   Mickael; Bailey, Vanessa; Hinz, Philip; Defrére, Denis; Esposito,
   Simone; Apai, Dániel; Biller, Beth; Brandner, Wolfgang; Close, Laird;
   Crepp, Justin R.; De Rosa, Robert J.; Desidera, Silvano; Eisner,
   Josh; Fortney, Jonathan; Freedman, Richard; Henning, Thomas; Hofmann,
   Karl-Heinz; Kopytova, Taisiya; Lupu, Roxana; Maire, Anne-Lise; Males,
   Jared R.; Marley, Mark; Morzinski, Katie; Oza, Apurva; Patience, Jenny;
   Rajan, Abhijith; Rieke, George; Schertl, Dieter; Schlieder, Joshua;
   Stone, Jordan; Su, Kate; Vaz, Amali; Visscher, Channon; Ward-Duong,
   Kimberly; Weigelt, Gerd; Woodward, Charles E.
2016ApJ...817..166S    Altcode: 2015arXiv151109183S
  As gas giant planets and brown dwarfs radiate away the residual heat
  from their formation, they cool through a spectral type transition
  from L to T, which encompasses the dissipation of cloud opacity and
  the appearance of strong methane absorption. While there are hundreds
  of known T-type brown dwarfs, the first generation of directly imaged
  exoplanets were all L type. Recently, Kuzuhara et al. announced
  the discovery of GJ 504 b, the first T dwarf exoplanet. GJ 504 b
  provides a unique opportunity to study the atmosphere of a new type of
  exoplanet with a ∼500 K temperature that bridges the gap between the
  first directly imaged planets (∼1000 K) and our own solar system's
  Jupiter (∼130 K). We observed GJ 504 b in three narrow L-band filters
  (3.71, 3.88, and 4.00 μm), spanning the red end of the broad methane
  fundamental absorption feature (3.3 μm) as part of the LBTI Exozodi
  Exoplanet Common Hunt (LEECH) exoplanet imaging survey. By comparing
  our new photometry and literature photometry with a grid of custom
  model atmospheres, we were able to fit GJ 504 b's unusual spectral
  energy distribution for the first time. We find that GJ 504 b is well
  fit by models with the following parameters: T<SUB>eff</SUB> = 544 ±
  10 K, g &lt; 600 m s<SUP>-2</SUP>, [M/H] = 0.60 ± 0.12, cloud opacity
  parameter of f<SUB>sed</SUB> = 2-5, R = 0.96 ± 0.07 R<SUB>Jup</SUB>,
  and log(L) = -6.13 ± 0.03 L<SUB>⊙</SUB>, implying a hot start
  mass of 3-30 M<SUB>jup</SUB> for a conservative age range of 0.1-6.5
  Gyr. Of particular interest, our model fits suggest that GJ 504 b has
  a superstellar metallicity. Since planet formation can create objects
  with nonstellar metallicities, while binary star formation cannot,
  this result suggests that GJ 504 b formed like a planet, not like
  a binary companion. <P />The LBT is an international collaboration
  among institutions in the United States, Italy, and Germany. LBT
  Corporation partners are the University of Arizona on behalf of the
  Arizona university system; Istituto Nazionale di Astrophisica, Italy;
  LBT Beteiligungsgesellschaft, Germany, representing the Max-Planck
  Society, the Astrophysical Institute Potsdam, and Heidelberg University;
  The Ohio State University, and the Research Corporation, on behalf of
  the University of Notre Dame, University of Minnesota, and University
  of Virginia.

---------------------------------------------------------
Title: Investigating the origin and spectroscopic variability of
    the near-infrared H I lines in the Herbig star VV Ser
Authors: Garcia Lopez, Rebeca; Kurosawa, Ryuichi; Caratti o Garatti,
   Alessio; Kreplin, Alexander; Weigelt, Gerd; Tambovtseva, Larisa V.;
   Grinin, Vladimir P.; Ray, Thomas P.
2016MNRAS.456..156G    Altcode: 2015arXiv151103181G
  The origin of the near-infrared (NIR) H I emission lines in young
  stellar objects are not yet understood. To probe it, we present
  multi-epoch LBT-LUCIFER spectroscopic observations of the Paδ, Paβ,
  and Brγ lines observed in the Herbig star VV Ser, along with Very
  Large Telescope Interferometer-AMBER Brγ spectro-interferometric
  observations at medium resolution. Our spectroscopic observations
  show line profile variability in all the H I lines. The strongest
  variability is observed in the redshifted part of the line profiles. The
  Brγ spectro-interferometric observations indicate that the Brγ line
  emitting region is smaller than the continuum emitting region. To
  interpret our results, we employed radiative transfer models with
  three different flow configurations: magnetospheric accretion,
  a magnetocentrifugally driven disc wind, and a schematic bipolar
  outflow. Our models suggest that the H I line emission in VV Ser is
  dominated by the contribution of an extended wind, perhaps a bipolar
  outflow. Although the exact physical process for producing such
  outflow is not known, this model is capable of reproducing the averaged
  single-peaked line profiles of the H I lines. Additionally, the observed
  visibilities, differential and closure phases are best reproduced
  when a wind is considered. Nevertheless, the complex line profiles and
  variability could be explained by changes in the relative contribution
  of the magnetosphere and/or winds to the line emission. This might
  indicate that the NIR H I lines are formed in a complex inner disc
  region where inflow and outflow components might coexist. Furthermore,
  the contribution of each of these mechanisms to the line appears time
  variable, suggesting a non-steady accretion/ejection flow.

---------------------------------------------------------
Title: The LEECH Exoplanet Imaging Survey: Orbit and Component Masses
    of the Intermediate-Age, Late-Type Binary NO UMa
Authors: Schlieder, Joshua E.; Skemer, Andrew J.; Maire, Anne-Lise;
   Desidera, Silvano; Hinz, Philip; Skrutskie, Michael F.; Leisenring,
   Jarron; Bailey, Vanessa; Defrère, Denis; Esposito, Simone;
   Strassmeier, Klaus G.; Weber, Michael; Biller, Beth A.; Bonnefoy,
   Mickaël; Buenzli, Esther; Close, Laird M.; Crepp, Justin R.; Eisner,
   Josh A.; Hofmann, Karl-Heinz; Henning, Thomas; Morzinski, Katie M.;
   Schertl, Dieter; Weigelt, Gerd; Woodward, Charles E.
2016ApJ...818....1S    Altcode: 2015arXiv151003813S
  We present high-resolution Large Binocular Telescope LBTI/LMIRcam images
  of the spectroscopic and astrometric binary NO UMa obtained as part of
  the LBT Interferometer Exozodi Exoplanet Common Hunt exoplanet imaging
  survey. Our H-, K<SUB>s</SUB>-, and L‧-band observations resolve
  the system at angular separations &lt;0.″09. The components exhibit
  significant orbital motion over a span of ∼7 months. We combine our
  imaging data with archival images, published speckle interferometry
  measurements, and existing spectroscopic velocity data to solve the
  full orbital solution and estimate component masses. The masses of
  the K2.0 ± 0.5 primary and K6.5 ± 0.5 secondary are 0.83 ± 0.02
  M<SUB>⊙</SUB> and 0.64 ± 0.02 M<SUB>⊙</SUB>, respectively. We also
  derive a system distance of d = 25.87 ± 0.02 pc and revise the Galactic
  kinematics of NO UMa. Our revised Galactic kinematics confirm NO UMa as
  a nuclear member of the ∼500 Myr old Ursa Major moving group, and it
  is thus a mass and age benchmark. We compare the masses of the NO UMa
  binary components to those predicted by five sets of stellar evolution
  models at the age of the Ursa Major group. We find excellent agreement
  between our measured masses and model predictions with little systematic
  scatter between the models. NO UMa joins the short list of nearby,
  bright, late-type binaries having known ages and fully characterized
  orbits. <P />Based on data obtained with the STELLA robotic telescope
  in Tenerife, an AIP facility jointly operated by AIP and IAC.

---------------------------------------------------------
Title: Constraining the evolutionary state of the hot, massive
    companion star and the wind-wind collision region in Eta Carinae
Authors: Gull, Theodore Raymond; Corcoran, Michael F.; Damineli,
   Augusto; Groh, Jose; Hamaguchi, Kenji; Hillier, D. John; Madura,
   Thomas I.; Owocki, Stanley P.; Richardson, Noel D.; Weigelt, Gerd
2016hst..prop13395G    Altcode:
  Our primary goal is to constrain the physical properties of Eta
  Car's wind-wind collision region and the properties of Eta Car B,
  the hot, very massive secondary companion that is hidden from our
  view. We propose to do this by measuring the forbidden emission lines
  in the extended, interacting wind structures resolved in the inner
  1.5 arcseconds region. As the mass-loss structures evolve across the
  5.54-year orbital period, we will selectively map their spatial and
  velocity changes at critical phases using the spatial resolution of
  HST and moderate spectral resolving power of the STIS to generate
  spatial (2-D), velocity (1-D) data cubes of regions of critical
  collisional densities. We will use these spatial-velocity data cubes
  to drive ongoing 3-D models of the interacting winds, adding radiative
  transfer. We will (A) strongly constrain the 3-D mass loss from the
  system and (B) determine the properties of Eta Car B, the source of
  FUV radiation and the driving wind creating the X-ray emitting cavity
  out of the dominating wind of Eta Car A.

---------------------------------------------------------
Title: Monte-Carlo radiative transfer simulation of the circumstellar
    disk of the Herbig Ae star HD 144432
Authors: Chen, L.; Kreplin, A.; Weigelt, G.; Hofmann, K. -H.; Schertl,
   D.; Malbet, F.; Massi, F.; Petrov, R.; Stee, Ph.
2016A&A...586A..54C    Altcode: 2015arXiv151202276C
  Context. Studies of pre-transitional disks, with a gap region between
  the inner near-infrared-emitting region and the outer disk, are
  important to improving our understanding of disk evolution and planet
  formation.Previous infrared interferometric observations have shown
  hints of a gap region in the protoplanetary disk around the Herbig Ae
  star HD 144432. <BR /> Aims: We study the dust distribution around this
  star with two-dimensional radiative transfer modeling. <BR /> Methods:
  We compare the model predictions obtained via the Monte-Carlo radiative
  transfer code RADMC-3D with infrared interferometric observations
  and the spectral energy distribution of HD 144432. <BR /> Results:
  The best-fit model that we found consists of an inner optically thin
  component at 0.21-0.32 AU and an optically thick outer disk at 1.4-10
  AU. We also found an alternative model in which the inner sub-AU region
  consists of an optically thin and an optically thick component. <BR />
  Conclusions: Our modeling suggests an optically thin component exists
  in the inner sub-AU region, although an optically thick component may
  coexist in the same region. Our modeling also suggests a gap-like
  discontinuity in the disk of HD 144432. <P />Based on observations
  made with ESO telescopes at Paranal Observatory under program ID
  083.D-0224(C) and 085.C-0126(A).

---------------------------------------------------------
Title: Constraining the evolutionary state of the hot, massive
    companion star and the wind-wind collision region in Eta Carinae
Authors: Gull, Theodore Raymond; Cherchneff, Isabelle; Corcoran,
   Michael F.; Damineli, Augusto; Groh, Jose; Hamaguchi, Kenji; Hillier,
   D. John; Icke, Vincent; Madura, Thomas I.; Owocki, Stanley P.;
   Richardson, Noel D.; Weigelt, Gerd
2016hst..prop12508G    Altcode:
  Our primary goal is to constrain the physical properties of Eta
  Car's wind-wind collision region and the properties of Eta Car B,
  the hot, very massive secondary companion that is hidden from our
  view. We propose to do this by measuring the forbidden emission lines
  in the extended, interacting wind structures resolved in the inner
  1.5 arcseconds region. As the mass-loss structures evolve across the
  5.54-year orbital period, we will selectively map their spatial and
  velocity changes at critical phases using the spatial resolution of
  HST and moderate spectral resolving power of the STIS to generate
  spatial {2-D}, velocity {1-D} data cubes of regions of critical
  collisional densities. We will use these spatial-velocity data cubes
  to drive ongoing 3-D models of the interacting winds, adding radiative
  transfer. We will {A} strongly constrain the 3-D mass loss from the
  system and {B} determine the properties of Eta Car B, the source of
  FUV radiation and the driving wind creating the X-ray emitting cavity
  out of the dominating wind of Eta Car A.

---------------------------------------------------------
Title: Revealing the Complex Dynamics of the Atmospheres of Red
    Supergiants with the Very Large Telescope Interferometer
Authors: Ohnaka, K.; Weigelt, G.; Hofmann, K. -H.; Schertl, D.
2015Msngr.162...46O    Altcode:
  Massive stars lose a significant fraction of their initial mass when
  they evolve to red supergiants before they end their life in supernova
  explosions. The mass loss greatly affects their final fate. However,
  the mass loss from these dying supergiants is not yet understood
  well. Here we present our efforts to spatially resolve the dynamics
  of the atmospheres of red supergiants with the Very Large Telescope
  Interferometer (VLTI) and the AMBER instrument to clarify the physical
  mechanism behind the mass loss. The VLTI/AMBER's combination of
  milliarcsecond spatial resolution and high spectral resolution allows
  us to spatially resolve stellar atmospheres and extract the dynamical
  information at each position over the star and the atmosphere — just
  like observations of the Sun.

---------------------------------------------------------
Title: High angular resolution at LBT
Authors: Conrad, A.; Arcidiacono, C.; Bertero, M.; Boccacci, P.;
   Davies, A. G.; Defrere, D.; de Kleer, K.; De Pater, I.; Hinz, P.;
   Hofmann, K. H.; La Camera, A.; Leisenring, J.; Kürster, M.; Rathbun,
   J. A.; Schertl, D.; Skemer, A.; Skrutskie, M.; Spencer, J. R.; Veillet,
   C.; Weigelt, G.; Woodward, C. E.
2015AGUFM.P23D..08C    Altcode:
  High angular resolution from ground-based observatories stands as a
  key technology for advancing planetary science. In the window between
  the angular resolution achievable with 8-10 meter class telescopes,
  and the 23-to-40 meter giants of the future, LBT provides a glimpse
  of what the next generation of instruments providing higher angular
  resolution will provide. We present first ever resolved images of an
  Io eruption site taken from the ground, images of Io's Loki Patera
  taken with Fizeau imaging at the 22.8 meter LBT [Conrad, et al.,
  AJ, 2015]. We will also present preliminary analysis of two data sets
  acquired during the 2015 opposition: L-band fringes at Kurdalagon and an
  occultation of Loki and Pele by Europa (see figure). The light curves
  from this occultation will yield an order of magnitude improvement
  in spatial resolution along the path of ingress and egress. We will
  conclude by providing an overview of the overall benefit of recent
  and future advances in angular resolution for planetary science.

---------------------------------------------------------
Title: AMBER/VLTI high spectral resolution observations of the Brγ
    emitting region in HD 98922. A compact disc wind launched from the
    inner disc region
Authors: Caratti o Garatti, A.; Tambovtseva, L. V.; Garcia Lopez, R.;
   Kraus, S.; Schertl, D.; Grinin, V. P.; Weigelt, G.; Hofmann, K. -H.;
   Massi, F.; Lagarde, S.; Vannier, M.; Malbet, F.
2015A&A...582A..44C    Altcode: 2015A&A...582A..44G; 2015arXiv150800798G
  Context. High angular and spectral resolution observations can provide
  us with fundamental clues to the complex circumstellar structure
  of young stellar objects (YSOs) and to the physical processes taking
  place close to these sources. <BR /> Aims: We analyse the main physical
  parameters and the circumstellar environment of the young Herbig Be star
  HD 98922. <BR /> Methods: We present AMBER/VLTI high spectral resolution
  (R = 12 000) interferometric observations across the Brγ line,
  accompanied by UVES high-resolution spectroscopy and SINFONI-AO assisted
  near-infrared (NIR) integral field spectroscopic data. To interpret
  our observations, we develop a magneto-centrifugally driven disc-wind
  model. <BR /> Results: Our analysis of the UVES spectrum shows that HD
  98922 is a young (~5 × 10<SUP>5</SUP> yr) Herbig Be star (SpT = B9V),
  located at a distance of 440± <SUP>60</SUP><SUB>50</SUB> pc, with a
  mass accretion rate (Ṁ<SUB>acc</SUB>) of ~(9 ± 3) × 10<SUP>-7</SUP>
  M<SUB>⊙</SUB> yr<SUP>-1</SUP>. SINFONI K-band AO-assisted imaging
  shows a spatially resolved circumstellar disc-like region (~140 AU in
  diameter) with asymmetric brightness distribution. Our AMBER/VLTI UT
  observations indicate that the Brγ emitting region (ring-fit radius
  ~0.31 ± 0.04 AU) is smaller than the continuum emitting region (inner
  dust radius ~0.7 ± 0.2 AU), showing significant non-zero V-shaped
  differential phases (i.e. non S-shaped, as expected for a rotating
  disc). The value of the continuum-corrected pure Brγ line visibility
  at the longest baseline (89 m) is ~0.8 ± 0.1, i.e. the Brγ emitting
  region is partially resolved. Our modelling suggests that the observed
  Brγ line-emitting region mainly originates from a disc wind with a
  half opening angle of 30°, and with a mass-loss rate (Ṁ<SUB>w</SUB>)
  of ~2 × 10<SUP>-7</SUP> M<SUB>⊙</SUB> yr<SUP>-1</SUP>. The observed
  V-shaped differential phases are reliably reproduced by combining
  a simple asymmetric continuum disc model with our Brγ disc-wind
  model. <BR /> Conclusions: In conclusion, the Brγ emission of HD
  98922 can be modelled with a disc wind that is able to approximately
  reproduce all interferometric observations if we assume that the
  intensity distribution of the dust continuum disc is asymmetric. <P
  />Based on observations collected at the VLT (ESO Paranal, Chile) with
  programmes 075.C-0637(A), 083.C-0236(A-D), 090.C-0192(A), 090.C-0378(A)
  and 090.C-0371(A).Appendices are available in electronic form at <A
  href="http://www.aanda.org/10.1051/0004-6361/201526002/olm">http://www.aanda.org</A>

---------------------------------------------------------
Title: High resolution LBT imaging of Io and Jupiter
Authors: Conrad, A.; de Kleer, K.; Leisenring, J.; La Camera, A.;
   Arcidiacono, C.; Bertero, M.; Boccacci, P.; Defrère, D.; de Pater,
   I.; Hinz, P.; Hoffman, K. -H.; Kürster, M.; Rathbun, J.; Schertl,
   D.; Skemer, A.; Skrutskie, M.; Spencer, J.; Veillet, C.; Weigelt,
   G.; Woodward, C.
2015EPSC...10..351C    Altcode:
  We report here results from observing Io at high angular resolution,
  ∼32 mas at 4.8 μm, with LBT at two favorable oppositions as described
  in our report given at the 2011 EPSC [1]. Analysis of datasets acquired
  during the last two oppositions has yielded spatially resolved M-band
  emission at Loki Patera [2], L-band fringes at an eruption site,
  an occultation of Loki and Pele by Europa, and sufficient sub-earth
  longitude (SEL) and parallactic angle coverage to produce a full disk
  map.We summarize completed results for the first of these, and give
  brief progress reports for the latter three. Finally, we provide plans
  for imaging the full disk of Jupiter using the MCAO system which is
  in its commissioning phase at LBT.

---------------------------------------------------------
Title: AMBER-NACO aperture-synthesis imaging of the half-obscured
    central star and the edge-on disk of the red giant L<SUB>2</SUB>
    Puppis
Authors: Ohnaka, K.; Schertl, D.; Hofmann, K. -H.; Weigelt, G.
2015A&A...581A.127O    Altcode: 2015arXiv150706668O
  <BR /> Aims: The red giant L<SUB>2</SUB> Pup started a dimming event
  in 1994, which is considered to be caused by the ejection of dust
  clouds. We present near-IR aperture-synthesis imaging of L<SUB>2</SUB>
  Pup achieved by combining data from VLT/NACO and the AMBER instrument of
  the Very Large Telescope Interferometer (VLTI). Our aim is to spatially
  resolve the innermost region of the circumstellar environment. <BR />
  Methods: We carried out speckle interferometric observations at 2.27
  μm with VLT/NACO and long-baseline interferometric observations
  with VLTI/AMBER at 2.2-2.35 μm with baselines of 15-81 m. We also
  extracted an 8.7 μm image from the mid-IR VLTI instrument MIDI. <BR />
  Results: The diffraction-limited image obtained by bispectrum speckle
  interferometry with NACO with a spatial resolution of 57 mas shows
  an elongated component. The aperture-synthesis imaging combining
  the NACO speckle data and AMBER data with a spatial resolution of
  5.6 × 7.3 mas further resolves not only this elongated component,
  but also the central star. The reconstructed image reveals that the
  elongated component is a nearly edge-on disk with a size of ~180 ×
  50 mas lying in the E-W direction, and furthermore, that the southern
  hemisphere of the central star is severely obscured by the equatorial
  dust lane of the disk. The angular size of the disk is consistent with
  the distance that the dust clouds that were ejected at the onset of the
  dimming event should have traveled by the time of our observations, if
  we assume that the dust clouds moved radially. This implies that the
  formation of the disk may be responsible for the dimming event. The
  8.7 μm image with a spatial resolution of 220 mas extracted from
  the MIDI data taken in 2004 (seven years before the AMBER and NACO
  observations) shows an approximately spherical envelope without a
  signature of the disk. This suggests that the mass loss before the
  dimming event may have been spherical. <P />Based on AMBER, NACO, and
  MIDI observations made with the Very Large Telescope and Very Large
  Telescope Interferometer of the European Southern Observatory. Program
  ID: 074.D-0075(A), 074.D-0101(A), 074.D-0198(B), 088.D-0150(A/B),
  and 288.D-5041(A). Appendices are available in electronic form at <A
  href="http://www.aanda.org/10.1051/0004-6361/201526338/olm">http://www.aanda.org</A>

---------------------------------------------------------
Title: The LEECH Exoplanet Imaging Survey. Further constraints on
    the planet architecture of the HR 8799 system (Corrigendum)
Authors: Maire, A. -L.; Skemer, A. J.; Hinz, P. M.; Desidera, S.;
   Esposito, S.; Gratton, R.; Marzari, F.; Skrutskie, M. F.; Biller,
   B. A.; Defrère, D.; Bailey, V. P.; Leisenring, J. M.; Apai, D.;
   Bonnefoy, M.; Brandner, W.; Buenzli, E.; Claudi, R. U.; Close,
   L. M.; Crepp, J. R.; De Rosa, R. J.; Eisner, J. A.; Fortney, J. J.;
   Henning, T.; Hofmann, K. -H.; Kopytova, T. G.; Males, J. R.; Mesa,
   D.; Morzinski, K. M.; Oza, A.; Patience, J.; Pinna, E.; Rajan, A.;
   Schertl, D.; Schlieder, J. E.; Su, K. Y. L.; Vaz, A.; Ward-Duong,
   K.; Weigelt, G.; Woodward, C. E.
2015A&A...579C...2M    Altcode:
  The LBT is an international collaboration among institutions in
  the United States, Italy and Germany. LBT Corporation partners are:
  The University of Arizona on behalf of the Arizona university system;
  Istituto Nazionale di Astrofisica, Italy; LBT Beteiligungsgesellschaft,
  Germany, representing the Max-Planck Society, the Astrophysical
  Institute Potsdam, and Heidelberg University; The Ohio State University,
  and The Research Corporation, on behalf of The University of Notre Dame,
  University of Minnesota, and University of Virginia.

---------------------------------------------------------
Title: Investigating 2MASS J06593158-0405277: AN FUor Burst in a
    Triple System?
Authors: Caratti o Garatti, A.; Garcia Lopez, R.; Ray, T. P.;
   Eislöffel, J.; Stecklum, B.; Scholz, A.; Kraus, S.; Weigelt, G.;
   Kreplin, A.; Shenavrin, V.
2015ApJ...806L...4C    Altcode: 2015ApJ...806L...4G; 2015arXiv150503691G
  FUor outbursts in young stellar objects are the most dramatic events
  among episodic accretion phenomena. The origin of these bursts is not
  clear: disk instabilities and/or disk perturbations by an external
  body being the most viable hypotheses. Here, we report our Very Large
  Telescope/SINFONI high angular resolution AO-assisted observations of
  2MASS J06593158-0405277, which is undergoing a recently discovered
  FUor outburst. Our observations reveal the presence of an extended
  disk-like structure around the FUor, a very low-mass companion
  (2MASS J06593158-0405277B) at ∼100 AU in projection, and, possibly,
  a third closer companion at ∼11 AU. These sources appear to be
  young, displaying accretion signatures. Assuming the components are
  physically linked, 2MASS J06593158-0405277 would then be one of the
  very few triple systems observed in FUors.

---------------------------------------------------------
Title: Spatially Resolved M-band Emission from Io's Loki Patera-Fizeau
    Imaging at the 22.8 m LBT
Authors: Conrad, Albert; de Kleer, Katherine; Leisenring, Jarron;
   La Camera, Andrea; Arcidiacono, Carmelo; Bertero, Mario; Boccacci,
   Patrizia; Defrère, Denis; de Pater, Imke; Hinz, Philip; Hofmann,
   Karl-Heinz; Kürster, Martin; Rathbun, Julie; Schertl, Dieter; Skemer,
   Andy; Skrutskie, Michael; Spencer, John; Veillet, Christian; Weigelt,
   Gerd; Woodward, Charles E.
2015AJ....149..175C    Altcode:
  The Large Binocular Telescope Interferometer mid-infrared camera,
  LMIRcam, imaged Io on the night of 2013 December 24 UT and detected
  strong M-band (4.8 μm) thermal emission arising from Loki Patera. The
  22.8 m baseline of the Large Binocular Telescope provides an angular
  resolution of ∼32 mas (∼100 km at Io) resolving the Loki Patera
  emission into two distinct maxima originating from different regions
  within Loki’s horseshoe lava lake. This observation is consistent
  with the presence of a high-temperature source observed in previous
  studies combined with an independent peak arising from cooling crust
  from recent resurfacing. The deconvolved images also reveal 15 other
  emission sites on the visible hemisphere of Io including two previously
  unidentified hot spots.

---------------------------------------------------------
Title: Physical Properties of the Massive Magnetic Binary
    θ<SUP>1</SUP> Ori C Components
Authors: Balega, Yu. Yu.; Chentsov, E. L.; Rzaev, A. Kh.; Weigelt, G.
2015ASPC..494...57B    Altcode:
  Thirty spectroscopic measurements of radial velocities and twenty eight
  interferometric observations of relative positions of the young massive
  magnetic binary θ<SUP>1</SUP> Ori C (HR 1895) components were used
  to derive a combined 3D orbit. The total mass of the system is 45.5±
  10.0M<SUB>⊙</SUB>. The masses of the components are M<SUB>1</SUB>
  =33.5± 3.2M<SUB>⊙</SUB> and M<SUB>2</SUB> =12.0± 3.0M<SUB>⊙</SUB>
  for a mass ratio q = 0.36±0.05. However, the accuracy of the combined
  orbital parameters is rather low. The principal difficulty consists in
  stochastic variations of absorption lines of the magnetic primary star,
  caused by a clumpy structure of absorbing material in the plane of
  the magnetic equator. In addition, weak and shallow lines of the fast
  rotating secondary do not allow precise radial velocity estimation. We
  believe that the continuation of θ<SUP>1</SUP> Ori Cspectroscopic
  monitoring will allow us to refine the orbital parameters over the
  next few years.

---------------------------------------------------------
Title: The LEECH Exoplanet Imaging Survey. Further constraints on
    the planet architecture of the HR 8799 system
Authors: Maire, A. -L.; Skemer, A. J.; Hinz, P. M.; Desidera, S.;
   Esposito, S.; Gratton, R.; Marzari, F.; Skrutskie, M. F.; Biller,
   B. A.; Defrère, D.; Bailey, V. P.; Leisenring, J. M.; Apai, D.;
   Bonnefoy, M.; Brandner, W.; Buenzli, E.; Claudi, R. U.; Close,
   L. M.; Crepp, J. R.; De Rosa, R. J.; Eisner, J. A.; Fortney, J. J.;
   Henning, T.; Hofmann, K. -H.; Kopytova, T. G.; Males, J. R.; Mesa,
   D.; Morzinski, K. M.; Oza, A.; Patience, J.; Pinna, E.; Rajan, A.;
   Schertl, D.; Schlieder, J. E.; Su, K. Y. L.; Vaz, A.; Ward-Duong,
   K.; Weigelt, G.; Woodward, C. E.
2015A&A...576A.133M    Altcode: 2014arXiv1412.6989M
  Context. Astrometric monitoring of directly imaged exoplanets allows
  the study of their orbital parameters and system architectures. Because
  most directly imaged planets have long orbital periods (&gt;20 AU),
  accurate astrometry is challenging when based on data acquired on
  timescales of a few years and usually with different instruments. The
  LMIRCam camera on the Large Binocular Telescope is being used for the
  LBT Exozodi Exoplanet Common Hunt (LEECH) survey to search for and
  characterize young and adolescent exoplanets in L' band (3.8 μm),
  including their system architectures. <BR /> Aims: We first aim to
  provide a good astrometric calibration of LMIRCam. Then, we derive
  new astrometry, test the predictions of the orbital model of 8:4:2:1
  mean motion resonance proposed for the system, and perform new orbital
  fitting of the HR 8799 bcde planets. We also present deep limits on
  a putative fifth planet inside the known planets. <BR /> Methods:
  We use observations of HR 8799 and the Θ<SUP>1</SUP> Ori C field
  obtained during the same run in October 2013. <BR /> Results: We first
  characterize the distortion of LMIRCam. We determine a platescale and
  a true north orientation for the images of 10.707 ± 0.012 mas/pix and
  -0.430 ± 0.076°, respectively. The errors on the platescale and true
  north orientation translate into astrometric accuracies at a separation
  of 1” of 1.1 mas and 1.3 mas, respectively. The measurements for
  all planets agree within 3σ with a predicted ephemeris. The orbital
  fitting based on the new astrometric measurements favors an architecture
  for the planetary system based on 8:4:2:1 mean motion resonance. The
  detection limits allow us to exclude a fifth planet slightly brighter
  or more massive than HR 8799 b at the location of the 2:1 resonance
  with HR 8799 e (~9.5 AU) and about twice as bright as HR 8799 cde
  at the location of the 3:1 resonance with HR 8799 e (~7.5 AU). <P
  />The LBT is an international collaboration among institutions in
  the United States, Italy, and Germany. LBT Corporation partners are:
  The University of Arizona on behalf of the Arizona university system;
  Istituto Nazionale di Astrofisica, Italy; LBT Beteiligungsgesellschaft,
  Germany, representing the Max-Planck Society, the Astrophysical
  Institute Potsdam, and Heidelberg University; The Ohio State University,
  and The Research Corporation, on behalf of The University of Notre Dame,
  University of Minnesota, and University of Virginia.

---------------------------------------------------------
Title: Probing the accretion-ejection connection with VLTI/AMBER. High
    spectral resolution observations of the Herbig Ae star HD 163296
Authors: Garcia Lopez, R.; Tambovtseva, L. V.; Schertl, D.; Grinin,
   V. P.; Hofmann, K. -H.; Weigelt, G.; Caratti o Garatti, A.
2015A&A...576A..84G    Altcode: 2015arXiv150203027G
  Context. Accretion and ejection are tightly connected and represent
  the fundamental mechanisms regulating star formation. However, the
  exact physical processes involved are not yet fully understood. <BR
  /> Aims: We present high angular and spectral resolution observations
  of the Brγ emitting region in the Herbig Ae star HD 163296 (MWC 275)
  in order to probe the origin of this line and constrain the physical
  processes taking place at sub-AU scales in the circumstellar region. <BR
  /> Methods: By means of VLTI-AMBER observations at high spectral
  resolution (R ~ 12 000), we studied interferometric visibilities,
  wavelength-differential phases, and closure phases across the Brγ
  line of HD 163296. To constrain the physical origin of the Brγ line
  in Herbig Ae stars, all the interferometric observables were compared
  with the predictions of a line radiative transfer disc wind model. <BR
  /> Results: The measured visibilities clearly increase within the
  Brγ line, indicating that the Brγ emitting region is more compact
  than the continuum. By fitting a geometric Gaussian model to the
  continuum-corrected Brγ visibilities, we derived a compact radius of
  the Brγ emitting region of ~0.07 ± 0.02 AU (Gaussian half width at
  half maximum; or a ring-fit radius of ~0.08 ± 0.02 AU). To interpret
  the observations, we developed a magneto-centrifugally driven disc wind
  model. Our best disc wind model is able to reproduce, within the errors,
  all the interferometric observables and it predicts a launching region
  with an outer radius of ~0.04 AU. However, the intensity distribution
  of the entire disc wind emitting region extends up to ~0.16 AU. <BR
  /> Conclusions: Our observations, along with a detailed modelling of
  the Brγ emitting region, suggest that most of the Brγ emission in
  HD 163296 originates from a disc wind with a launching region that is
  over five times more compact than previous estimates of the continuum
  dust rim radius. <P />Appendices are available in electronic form at <A
  href="http://www.aanda.org/10.1051/0004-6361/201424778/olm">http://www.aanda.org</A>Based
  on observations collected at the European Southern Observatory Paranal,
  Chile (ESO programme 089.C-0443(A)).

---------------------------------------------------------
Title: On the changes in the physical properties of the ionized
    region around the Weigelt structures in η Carinae over the 5.54-yr
    spectroscopic cycle
Authors: Teodoro, Mairan; Gull, Theodore R.; Bautista, Manuel; Hillier,
   Desmond John; Weigelt, Gerd
2015AAS...22534421T    Altcode:
  We present HST/STIS observations and analysis of two prominent
  nebular structures around the central source of η Carinae, the
  so-called Weigelt blobs C and D. The former is brighter than the
  latter for emission lines from intermediate or high ionization
  potential ions. The brightness of lines from intermediate and high
  ionization potential ions significantly decreases at phases around
  periastron. We do not see conspicuous changes in the brightness of
  lines from low ionization potential ions over the orbital period. Line
  ratios suggest that the total extinction towards the Weigelt structures
  is A<SUB>V</SUB>=2.0. Weigelt C and D are characterized by an electron
  density of 10<SUP>6.9</SUP> cm<SUP>-3</SUP> that does not significantly
  change throughout the orbital cycle. The electron temperature varies
  from 5500 K (around periastron) to 7200 K (around apastron). The
  relative changes in the brightness of He<SUP>0</SUP> lines are well
  reproduced by the variations in the electron temperature alone. We found
  that, at phases around periastron, the electron temperature seems to be
  higher for Weigelt C than that of D. The Weigelt structures are located
  close to the Homunculus equatorial plane, at a distance of about 1240
  AU from the central source. From the analysis of proper motion and age,
  the Weigelt complex can be associated with the equatorial structure
  called `Butterfly Nebula' surrounding the central binary system.

---------------------------------------------------------
Title: The interacting winds of Eta Carinae: Observed forbidden line
    changes and the Forbidden Blue(-Shifted) Crab
Authors: Gull, Theodore R.; Madura, Thomas; Corcoran, Michael F.;
   Teodoro, Mairan; Richardson, Noel; Hamaguchi, Kenji; Groh, Jose H.;
   Hillier, Desmond John; Damineli, Augusto; Weigelt, Gerd
2015AAS...22534416G    Altcode:
  The massive binary, Eta Carinae (EC), produces such massive winds
  that strong forbidden line emission of singly- and doubly-ionized
  iron traces wind-wind interactions from the current cycle plus fossil
  interactions from one, two and three 5.54-year cycles ago.With an
  eccentricity of &gt;0.9, the &gt;90 solar mass primary (EC-A) and
  &gt;30 solar mass secondary (EC-B) approach to within 1.5 AU during
  periastron and recede to nearly 30 AU across apastron. The wind-wind
  structures move outward driven by the 420 km/s primary wind interacting
  with the ~3000 km/s secondary wind yielding partially-accelerated
  compressed primary wind shells that are excited by mid-UV from EC-A
  and in limited lines of sight, FUV from EC-B.These structures are
  spectroscopically and spatially resolved by HST's Space Telescope
  Imaging Spectrograph. At critical binary phases, we have mapped
  the central 2'x2' region in the light of [Fe III] and [Fe II] with
  spatial resolution of 0.12' and velocity resolution of 40 km/s.1) The
  bulk of forbidden emission originates from the large cavity northwest
  of EC and is due to ionization of massive ejecta from the 1840s and
  1890s eruptions. The brightest clumps are the Weigelt Blobs C and D,
  but there are additionally multiple, fainter emission clumps. Weigelt
  B appears to have faded.2) Three concentric, red-shifted [FeII] arcs
  expand at ~470 km/s excited by mid-UV of EC-A.3) The structure of
  primarily blue-shifted [Fe III] emission resembles a Maryland Blue
  Crab. The claws appear at the early stages of the high-excitation
  recovery from the periastron passage, expand at radial velocities
  exceeding the primary wind terminal velocity, 420 km/s and fade as the
  binary system approaches periastron with the primary wind enveloping
  the FUV radiation from EC-B.4) All [Fe III] emission faded by late June
  2014 and disappeared by August 2, 2014, the beginning of periastron
  passage.Comparisons to HST/STIS observations between 1998 to 2004.3
  indicate long-term fading of [Fe II]. Likewise, Na D emission has
  faded. 3D hydro/radiative models suggest a small decrease (&lt; factor
  of 2) in primary mass loss rate to be the cause.

---------------------------------------------------------
Title: High Resolution Imaging of Io's Volcanoes with LBTI
Authors: Conrad, Al; Leisenring, Jarron; de Kleer, Katherine; Skemer,
   Andy; Hinz, Philip; Skrutskie, Michael; Veillet, Christian; de Pater,
   Imke; Bertero, Mario; Boccacci, Patrizia; Defrère, Denis; Hofmann,
   Karl-Heinz; La Camera, Andrea; Schertl, Dieter; Spencer, John; Weigelt,
   Gerd; Woodward, Charles E.
2014DPS....4641818C    Altcode:
  The Large Binocular Telescope (LBT), located on Mount Graham in eastern
  Arizona, employs two 8.4 meter mirrors with a 14.4 center-to-center
  separation on a common mount. Coherent combination of these two
  AO-corrected apertures via the LBT Interferometer (LBTI) produces
  Fizeau interferometric images with spatial resolution consistent with
  the diffraction limit of the 22.8-meter aperture. In particular LBTI
  resolves thermal signatures (i.e., features observed at M-band) on
  the surface of Io down to ~150 kilometers; a two-fold improvement
  over what has previously been possible from the ground. We show
  images collected with LBTI on December 24, 2013, in which Loki's
  shape is clearly resolved and at least fourteen additional volcanic
  hot spots are detected.We analyze three locations in the LBTI data:
  emission features within Loki Patera, the area near Rarog and Heno
  Patarae, and a hot spot seen in the Colchis Regio.For Loki Patera,
  we interpret spatially resolved variation in the emission within
  that region. With M-band resolution that is comparable to what has
  previously been achievable only at K-band, we compare localized emission
  features with what has been seen in earlier observations at shorter
  wavelengths.Thermal emission from activity at Rarog and Heno Patarae
  is well resolved in these images, while a third hot-spot in the nearby
  Lerna Regio is also clearly resolved. This area is of special interest
  since it was the site of two high-effusion outbursts on August 15th,
  2013 [de Pater et al. (2014) Icarus].Lastly, we explore a hot-spot
  seen in the Colchis Regio that may be a remnant of a violent outburst
  detected on August 29th, 2013 [de Kleer et al. (2014) Icarus].

---------------------------------------------------------
Title: An Overview of the MATISSE Instrument — Science, Concept
    and Current Status
Authors: Lopez, B.; Lagarde, S.; Jaffe, W.; Petrov, R.; Schöller,
   M.; Antonelli, P.; Beckmann, U.; Berio, P.; Bettonvil, F.;
   Glindemann, A.; Gonzalez, J. -C.; Graser, U.; Hofmann, K. -H.;
   Millour, F.; Robbe-Dubois, S.; Venema, L.; Wolf, S.; Henning, T.;
   Lanz, T.; Weigelt, G.; Agocs, T.; Bailet, C.; Bresson, Y.; Bristow,
   P.; Dugué, M.; Heininger, M.; Kroes, G.; Laun, W.; Lehmitz, M.;
   Neumann, U.; Augereau, J. -C.; Avila, G.; Behrend, J.; van Belle, G.;
   Berger, J. -P.; van Boekel, R.; Bonhomme, S.; Bourget, P.; Brast,
   R.; Clausse, J. -M.; Connot, C.; Conzelmann, R.; Cruzalèbes, P.;
   Csepany, G.; Danchi, W.; Delbo, M.; Delplancke, F.; Dominik, C.;
   van Duin, A.; Elswijk, E.; Fantei, Y.; Finger, G.; Gabasch, A.; Gay,
   J.; Girard, P.; Girault, V.; Gitton, P.; Glazenborg, A.; Gonté, F.;
   Guitton, F.; Guniat, S.; De Haan, M.; Haguenauer, P.; Hanenburg, H.;
   Hogerheijde, M.; ter Horst, R.; Hron, J.; Hugues, Y.; Hummel, C.;
   Idserda, J.; Ives, D.; Jakob, G.; Jasko, A.; Jolley, P.; Kiraly,
   S.; Köhler, R.; Kragt, J.; Kroener, T.; Kuindersma, S.; Labadie,
   L.; Leinert, C.; Le Poole, R.; Lizon, J. -L.; Lucuix, C.; Marcotto,
   A.; Martinache, F.; Martinot-Lagarde, G.; Mathar, R.; Matter, A.;
   Mauclert, N.; Mehrgan, L.; Meilland, A.; Meisenheimer, K.; Meisner,
   J.; Mellein, M.; Menardi, S.; Menut, J. -L.; Merand, A.; Morel, S.;
   Mosoni, L.; Navarro, R.; Nussbaum, E.; Ottogalli, S.; Palsa, R.;
   Panduro, J.; Pantin, E.; Parra, T.; Percheron, I.; Duc, T. P.; Pott,
   J. -U.; Pozna, E.; Przygodda, F.; Rabbia, Y.; Richichi, A.; Rigal, F.;
   Roelfsema, R.; Rupprecht, G.; Schertl, D.; Schmidt, C.; Schuhler, N.;
   Schuil, M.; Spang, A.; Stegmeier, J.; Thiam, L.; Tromp, N.; Vakili,
   F.; Vannier, M.; Wagner, K.; Woillez, J.
2014Msngr.157....5L    Altcode:
  MATISSE, a second generation Very Large Telescope Interferometer (VLTI)
  instrument, is a combined imager and spectrograph for interferometry
  in the 3-5 μm region (L- and M-bands) and the 8-13 μm window
  (N-band). MATISSE builds on the experience gained with the VLTI's
  first generation instruments. It employs multi-axial beam combination
  while also providing wavelength differential visibility and phase,
  and closure-phase aperture-synthesis imaging at a range of spectral
  resolutions. MATISSE is designed for a broad range of science goals,
  and its potential for studies of the discs around young stars and
  active galactic nuclei are highlighted. The instrument concept and
  operating modes are described; construction is in progress towards
  installation at the VLTI in 2016.

---------------------------------------------------------
Title: Study of the sub-AU disk of the Herbig B[e] star HD 85567
    with near-infrared interferometry
Authors: Vural, J.; Kraus, S.; Kreplin, A.; Weigelt, G.; Fossat, E.;
   Massi, F.; Perraut, K.; Vakili, F.
2014A&A...569A..25V    Altcode: 2014arXiv1407.8190V
  Context. The structure of the inner disk of Herbig Be stars is not
  well understood. The continuum disks of several Herbig Be stars have
  inner radii that are smaller than predicted by models of irradiated
  disks with optically thin holes. <BR /> Aims: We study the size of
  the inner disk of the Herbig B[e] star HD 85567 and compare the model
  radii with the radius suggested by the size-luminosity relation. <BR
  /> Methods: The object was observed with the AMBER instrument of the
  Very Large Telescope Interferometer. We obtained K-band visibilities
  and closure phases. These measurements are interpreted with geometric
  models and temperature-gradient models. <BR /> Results: Using several
  types of geometric star-disk and star-disk-halo models, we derived
  inner ring-fit radii in the K band that are in the range of 0.8-1.6
  AU. Additional temperature-gradient modeling resulted in an extended
  disk with an inner radius of 0.67<SUP>+0.51</SUP><SUB>-0.21</SUB>
  AU, a high inner temperature of 2200<SUP>+750</SUP><SUB>-350</SUB> K,
  and a disk inclination of 53<SUP>+15</SUP><SUB>-11</SUB> °. <BR />
  Conclusions: The derived geometric ring-fit radii are approximately 3-5
  times smaller than that predicted by the size-luminosity relation. The
  small geometric and temperature-gradient radii suggest optically thick
  gaseous material that absorbs stellar radiation inside the dust disk. <P
  />Based on observations made with ESO telescopes at the La Silla
  Paranal Observatory under program IDs 080.C-0541(C), 082.C-0893(A),
  084.C-0848(B).Appendix A is available in electronic form at <A
  href="http://www.aanda.org/10.1051/0004-6361/201424214/olm">http://www.aanda.org</A>

---------------------------------------------------------
Title: He II 4686 in eta Carinae: no significant changes between
    2009.0 and 2014.6
Authors: Teodoro, Mairan; Heathcote, Bernard; Richardson, Noel;
   Luckas, Paul; Walter, Frederick; Prates, Rodrigo; Hickel, Gabriel;
   Coimbra, Adriano M.; Navarete, Felipe; Locke, Malcolm; Bohlsen, Terry;
   Damineli, Augusto; Jablonski, Francisco; Henrique, William; Powles,
   Jonathan; West, Julian; Andrade, Thiago A.; Fernandez-Lajus, Eduardo;
   Gull, Theodore; Corcoran, Michael F.; Groh, Jose H.; Hamaguchi, Kenji;
   Madura, Thomas; St-Jean, Lucas; Weigelt, Gerd
2014ATel.6464....1T    Altcode:
  We are conducting a multi-observatory campaign focused on the monitoring
  of He II 4686 emission across the periastron event of eta Carinae. The
  behavior of the equivalent width of the He II 4686 emission line across
  the 2014.6 event is similar to that observed in 2009.0.

---------------------------------------------------------
Title: The stability of the He II 4686 line emission across periastron
    passages in eta Carinae
Authors: Teodoro, Mairan; Heathcote, Bernard; Richardson, Noel; Prates,
   Rodrigo; Damineli, Augusto; Hickel, Gabriel; Bohlsen, Terry; Luckas,
   Paul; Locke, Malcolm; Navarete, Felipe; West, Julian; Andrade, Thiago
   A.; Coimbra, Adriano M.; Fernandez-Lajus, Eduardo; Gull, Theodore;
   Jablonski, Francisco; Corcoran, Michael F.; Groh, Jose H.; Hamaguchi,
   Kenji; Madura, Thomas; St-Jean, Lucas; Weigelt, Gerd
2014ATel.6380....1T    Altcode:
  Preliminary analysis of data from the international campaign to
  monitor eta Carinae through the 2014 event shows that, as expected,
  the equivalent width of the He II 4686 emission line has reached its
  minimum strength on JD=2456870.8 (August 01 2014).

---------------------------------------------------------
Title: HD 139614: the interferometric case for a group-Ib
    pre-transitional young disk
Authors: Labadie, Lucas; Matter, Alexis; Kreplin, Alexander;
   Lopez, Bruno; Wolf, Sebastian; Weigelt, Gerd; Ertel, Steve; Berger,
   Jean-Philippe; Pott, Jorg-Uwe; Danchi, William C.
2014SPIE.9146E..2TL    Altcode: 2014arXiv1408.3876L
  The Herbig Ae star HD 139614 is a group-Ib object, which featureless
  SED indicates disk flaring and a possible pre-transitional evolutionary
  stage. We present mid- and near-IR interferometric results collected
  with MIDI, AMBER and PIONIER with the aim of constraining the spatial
  structure of the 0.1-10 AU disk region and assess its possible
  multi-component structure. A two-component disk model composed of an
  optically thin 2-AU wide inner disk and an outer temperature-gradient
  disk starting at 5.6 AU reproduces well the observations. This is
  an additional argument to the idea that group-I HAeBe inner disks
  could be already in the disk-clearing transient stage. HD 139614 will
  become a prime target for mid-IR interferometric imaging with the
  second-generation instrument MATISSE of the VLTI.

---------------------------------------------------------
Title: The LINC-NIRVANA high resolution imager: challenges from the
    lab to first light
Authors: Herbst, T. M.; Ragazzoni, R.; Eckart, A.; Weigelt, G.
2014SPIE.9147E..1MH    Altcode:
  We present an update on LINC-NIRVANA (LN), an innovative,
  high-resolution infrared imager for the Large Binocular Telescope
  (LBT). LN uses Multi-Conjugate Adaptive Optics (MCAO) for
  high-sky-coverage diffraction-limited imagery and interferometric
  beam combination. The last two years have seen both successes and
  challenges. On the one hand, final integration is proceeding well in
  the lab. We also achieved First Light at the LBT with the Pathfinder
  experiment. On the other hand, funding constraints have forced a
  significant re-planning of the overall instrument implementation. This
  paper presents our progress and plans for bringing the instrument
  online at the telescope.

---------------------------------------------------------
Title: A low-noise HAWAII detector system and new cold optics for
    the CLASSIC/CLIMB beam combiner instrument of the CHARA array
Authors: Beckmann, Udo; Connot, Claus; Heininger, Matthias; Hofmann,
   Karl-Heinz; Nußbaum, Eddy; Schertl, Dieter; Solscheid, Walter;
   ten Brummelaar, Theo; Turner, Nils; Weigelt, Gerd
2014SPIE.9146E..1WB    Altcode:
  As part of a new collaboration between CHARA and the Max Planck
  Institute for Radio Astronomy, we have developed a new detector system
  for the CLASSIC/CLIMB beam combiner of the CHARA Array. This detector
  is based on the Rockwell HAWAII-1 HgCdTe focal plane array and has
  lower readout noise (∼5 electrons) than the current PICNIC based
  system. Presently, CLASSIC/CLIMB observations at different wavelength
  bands can be made only successively by selecting individual filters
  in a filter wheel. Therefore, another upgrade goal is to install a
  non-deviating prism in order to image the H- and K'-band light onto
  separate detector pixels and to simultaneously observe in the H and K'
  bands. The detector control electronics were built at the Max Planck
  Institute for Radio Astronomy. The goal was to achieve the lowest
  possible readout noise and electronic pick-up noise. The detector
  readout noise can be significantly reduced by the following approach:
  First, the analog detector output signal is processed by a moving
  boxcar filter consisting of an analog approximation of a finite impulse
  response filter with a response time adapted to the 10 MHz sample rate
  of an analog-to-digital converter. Second, a digital filter averages
  up to 1024 samples for each addressed pixel. This hybrid (analog plus
  digital) filter approach gives a unique flexibility of a programmable
  bandwidth for optimum noise reduction.

---------------------------------------------------------
Title: High contrast imaging at the LBT: the LEECH exoplanet imaging
    survey
Authors: Skemer, Andrew J.; Hinz, Philip; Esposito, Simone; Skrutskie,
   Michael F.; Defrère, Denis; Bailey, Vanessa; Leisenring, Jarron;
   Apai, Daniel; Biller, Beth; Bonnefoy, Mickaël.; Brandner, Wolfgang;
   Buenzli, Esther; Close, Laird; Crepp, Justin; De Rosa, Robert J.;
   Desidera, Silvano; Eisner, Josh; Fortney, Jonathan; Henning, Thomas;
   Hofmann, Karl-Heinz; Kopytova, Taisiya; Maire, Anne-Lise; Males, Jared
   R.; Millan-Gabet, Rafael; Morzinski, Katie; Oza, Apurva; Patience,
   Jenny; Rajan, Abhijith; Rieke, George; Schertl, Dieter; Schlieder,
   Joshua; Su, Kate; Vaz, Amali; Ward-Duong, Kimberly; Weigelt, Gerd;
   Woodward, Charles E.; Zimmerman, Neil
2014SPIE.9148E..0LS    Altcode: 2014arXiv1407.2876S
  In Spring 2013, the LEECH (LBTI Exozodi Exoplanet Common Hunt) survey
  began its ~130-night campaign from the Large Binocular Telescope
  (LBT) atop Mt Graham, Arizona. This survey benefits from the many
  technological achievements of the LBT, including two 8.4-meter mirrors
  on a single fixed mount, dual adaptive secondary mirrors for high
  Strehl performance, and a cold beam combiner to dramatically reduce the
  telescope's overall background emissivity. LEECH neatly complements
  other high-contrast planet imaging efforts by observing stars at L'
  (3.8 μm), as opposed to the shorter wavelength near-infrared bands
  (1-2.4 μm) of other surveys. This portion of the spectrum offers
  deep mass sensitivity, especially around nearby adolescent (~0.1-1
  Gyr) stars. LEECH's contrast is competitive with other extreme
  adaptive optics systems, while providing an alternative survey
  strategy. Additionally, LEECH is characterizing known exoplanetary
  systems with observations from 3-5μm in preparation for JWST.

---------------------------------------------------------
Title: MATISSE status report and science forecast
Authors: Lopez, B.; Lagarde, S.; Jaffe, W.; Petrov, R.; Schöller,
   M.; Antonelli, P.; Beckman, U.; Bério, Ph.; Bettonvil, F.; Graser,
   U.; Millour, F.; Robbe-Dubois, S.; Venema, L.; Wolf, S.; Bristow, P.;
   Glindemann, A.; Gonzalez, J. -C.; Lanz, Th.; Henning, T.; Weigelt,
   G.; Agócs, T.; Augereau, J. -C.; Ávila, G.; Bailet, C.; Behrend,
   J.; Berger, J. -P.; von Boekel, Roy; Bonhomme, S.; Bourget, P.; Brast,
   R.; Bresson, Y.; Clausse, J. M.; Chesneau, O.; Csépány, G.; Connot,
   C.; Crida, A.; Danchi, W. C.; Delbo, M.; Delplancke, F.; Dominik, C.;
   Dugué, M.; Elswijk, E.; Fanteï, Y.; Finger, G.; Gabasch, A.; Girard,
   P.; Girault, V.; Gitton, P.; Glazenborg, A.; Gonté, F.; Guitton, F.;
   Guniat, S.; De Haan, M.; Haguenauer, P.; Hanenburg, H.; Heininger, M.;
   Hofmann, K. -H.; Hogerheijde, M.; ter Horst, R.; Hron, J.; Hughes, Y.;
   Ives, D.; Jakob, G.; Jaskó, A.; Jolley, P.; Kragt, J.; Köhler, R.;
   Kroener, T.; Kroes, G.; Labadie, L.; Laun, W.; Lehmitz, M.; Leinert,
   Ch.; Lizon, J. L.; Lucuix, Ch.; Marcotto, A.; Martinache, F.; Matter,
   A.; Martinot-Lagarde, G.; Mauclert, N.; Mehrgan, L.; Meilland, A.;
   Mellein, M.; Ménardi, S.; Menut, J. L.; Meisenheimer, K.; Morel,
   S.; Mosoni, L.; Navarro, R.; Neumann, U.; Nussbaum, E.; Ottogalli,
   S.; Palsa, R.; Panduro, J.; Pantin, E.; Percheron, I.; Duc, T. Phan;
   Pott, J. -U.; Pozna, Eszter; Przygodda, F.; Richichi, A.; Rigal,
   F.; Rupprecht, G.; Schertl, D.; Stegmeier, J.; Thiam, L.; Tromp, N.;
   Vannier, M.; Vakili, F.; van Belle, G.; Wagner, K.; Woillez, J.
2014SPIE.9146E..0ML    Altcode:
  MATISSE is the mid-infrared spectrograph and imager for the Very Large
  Telescope Interferometer (VLTI) at Paranal. This second generation
  interferometry instrument will open new avenues in the exploration
  of our Universe. Mid-infrared interferometry with MATISSE will allow
  significant advances in various fundamental research fields: studies
  of disks around young stellar objects where planets form and evolve,
  surface structures and mass loss of stars in late evolutionary stages,
  and the environments of black holes in active galactic nuclei. MATISSE
  is a unique instrument. As a first breakthrough it will enlarge the
  spectral domain used by optical interferometry by offering the L
  &amp; M bands in addition to the N band, opening a wide wavelength
  domain, ranging from 2.8 to 13 μm on angular scales of 3 mas (L/M
  band) / 10 mas (N band). As a second breakthrough, it will allow
  mid-infrared imaging - closure-phase aperture-synthesis imaging -
  with up to four Unit Telescopes (UT) or Auxiliary Telescopes (AT)
  of the VLTI. MATISSE will offer various ranges of spectral resolution
  between R~30 to ~5000. In this article, we present some of the main
  science objectives that have driven the instrument design. We introduce
  the physical concept of MATISSE including a description of the signal
  on the detectors and an evaluation of the expected performance and
  discuss the project status. The operations concept will be detailed in
  a more specific future article, illustrating the observing templates
  operating the instrument, the data reduction and analysis, and the
  image reconstruction software.

---------------------------------------------------------
Title: The 2014 interferometric imaging beauty contest
Authors: Monnier, John D.; Berger, Jean-Philippe; Le Bouquin,
   Jean-Baptiste; Tuthill, Peter G.; Wittkowski, Markus; Grellmann,
   Rebekka; Müller, André; Renganswany, Sridhar; Hummel, Christian;
   Hofmann, Karl-Heinz; Schertl, Dieter; Weigelt, Gerd; Young, John;
   Buscher, David; Sanchez-Bermudez, Joel; Alberdi, Antxon; Schoedel,
   Rainer; Köhler, Rainer; Soulez, Ferréol; Thiébaut, Éric; Kluska,
   Jacques; Malbet, Fabien; Duvert, Gilles; Kraus, Stefan; Kloppenborg,
   Brian K.; Baron, Fabien; de Wit, Willem-Jan; Rivinius, Thomas;
   Merand, Antoine
2014SPIE.9146E..1QM    Altcode:
  Here we present the results of the 6th biennial optical interferometry
  imaging beauty contest. Taking advantage of a unique opportunity,
  the red supergiant VY CMa and the Mira variable R Car were observed
  in the astronomical H-band with three 4-telescope configurations of
  the VLTI-AT array using the PIONIER instrument. The community was
  invited to participate in the subsequent image reconstruction and
  interpretation phases of the project. Ten groups submitted entries to
  the beauty contest, and we found reasonable consistency between images
  obtained from independent workers using quite different algorithms. We
  also found that significant differences existed between the submitted
  images, much greater than in past beauty contests that were all based on
  simulated data. A novel crowd-sourcing" method allowed consensus median
  images to be constructed, filtering likely artifacts and retaining
  real features." We definitively detect strong spots on the surfaces
  of both stars as well as distinct circumstellar shells of emission
  (likely water/CO) around R Car. In a close contest, Joel Sanchez
  (IAA-CSIC/Spain) was named the winner of the 2014 interferometric
  imaging beauty contest. This process has shown that new comers" can use
  publicly-available imaging software to interpret VLTI/PIONIER imaging
  data, as long as sufficient observations are taken to have complete uv
  coverage { a luxury that is often missing. We urge proposers to request
  adequate observing nights to collect sufficient data for imaging and for
  time allocation committees to recognise the importance of uv coverage
  for reliable interpretation of interferometric data. We believe that
  the result of the proposed broad international project will contribute
  to inspiring trust in the image reconstruction processes in optical
  interferometry.

---------------------------------------------------------
Title: The LINC-NIRVANA Fizeau interferometric imager: final lab
    integration, first light experiments and challenges
Authors: Herbst, T. M.; Ragazzoni, R.; Eckart, A.; Weigelt, G.
2014SPIE.9146E..0IH    Altcode:
  LINC-NIRVANA (LN) is an innovative Fizeau interferometric imager
  for the Large Binocular Telescope (LBT). LN uses Multi-Conjugate
  Adaptive Optics (MCAO) for high-sky-coverage single-eye imagery
  and interferometric beam combination. The last two years have seen
  both successes and challenges. On the one hand, final integration is
  proceeding well in the lab. We also achieved First Light at the LBT
  with the Pathfinder experiment. On the other hand, funding constraints
  have forced a significant re-planning of the overall instrument
  implementation. These laboratory, observatory, and financial "events"
  provide lessons for builders of complex interferometric instruments
  on large telescopes. This paper presents our progress and plans for
  bringing the instrument online at the telescope.

---------------------------------------------------------
Title: Fizeau interferometric imaging of Io volcanism with
    LBTI/LMIRcam
Authors: Leisenring, J. M.; Hinz, P. M.; Skrutskie, M.; Skemer, A.;
   Woodward, C. E.; Veillet, C.; Arcidiacono, C.; Bailey, V.; Bertero,
   M.; Boccacci, P.; Conrad, A.; de Kleer, K.; de Pater, I.; Defrère,
   D.; Hill, J.; Hofmann, K. -H.; Kaltenegger, L.; La Camera, A.; Nelson,
   M. J.; Schertl, D.; Spencer, J.; Weigelt, G.; Wilson, J. C.
2014SPIE.9146E..2SL    Altcode:
  The Large Binocular Telescope (LBT) houses two 8.4-meter mirrors
  separated by 14.4 meters on a common mount. Coherent combination of
  these two AO-corrected apertures via the LBT Interferometer (LBTI)
  produces Fizeau interferometric images with a spatial resolution
  equivalent to that of a 22.8-meter telescope and the light- gathering
  power of single 11.8-meter mirror. Capitalizing on these unique
  capabilities, we used LBTI/LMIRcam to image thermal radiation from
  volcanic activity on the surface of Io at M-Band (4.8 μm) over a range
  of parallactic angles. At the distance of Io, the M-Band resolution
  of the interferometric baseline corresponds to a physical distance of
  ~135 km, enabling high-resolution monitoring of Io volcanism such as
  ares and outbursts inaccessible from other ground-based telescopes
  operating in this wavelength regime. Two deconvolution routines are
  used to recover the full spatial resolution of the combined images,
  resolving at least sixteen known volcanic hot spots. Coupling these
  observations with advanced image reconstruction algorithms demonstrates
  the versatility of Fizeau interferometry and realizes the LBT as the
  first in a series of extremely large telescopes.

---------------------------------------------------------
Title: An image reconstruction method (IRBis) for optical/infrared
    interferometry
Authors: Hofmann, K. -H.; Weigelt, G.; Schertl, D.
2014A&A...565A..48H    Altcode:
  <BR /> Aims: We present an image reconstruction method for
  optical/infrared long-baseline interferometry called IRBis (image
  reconstruction software using the bispectrum). We describe the theory
  and present applications to computer-simulated interferograms. <BR
  /> Methods: The IRBis method can reconstruct an image from measured
  visibilities and closure phases. The applied optimization routine ASA_CG
  is based on conjugate gradients. The method allows the user to implement
  different regularizers, apply residual ratios as an additional metric
  for goodness-of-fit, and use previous iteration results as a prior to
  force convergence. <BR /> Results: We present the theory of the IRBis
  method and several applications of the method to computer-simulated
  interferograms. The image reconstruction results show the dependence
  of the reconstructed image on the noise in the interferograms (e.g.,
  for ten electron read-out noise and 139 to 1219 detected photons per
  interferogram), the regularization method, the angular resolution,
  and the reconstruction parameters applied. Furthermore, we present
  the IRBis reconstructions submitted to the interferometric imaging
  beauty contest 2012 initiated by the IAU Working Group on Optical/IR
  Interferometry and describe the performed data processing steps.

---------------------------------------------------------
Title: The inner circumstellar disk of the UX Orionis star V1026
    Scorpii
Authors: Vural, J.; Kreplin, A.; Kishimoto, M.; Weigelt, G.; Hofmann,
   K. -H.; Kraus, S.; Schertl, D.; Dugué, M.; Duvert, G.; Lagarde, S.;
   Massi, F.
2014A&A...564A.118V    Altcode: 2014arXiv1403.4941V
  Context. The UX Ori type variables (named after the prototype of
  their class) are intermediate-mass pre-main sequence objects. One of
  the most likely causes of their variability is the obscuration of the
  central star by orbiting dust clouds. <BR /> Aims: We investigate the
  structure of the circumstellar environment of the UX Ori star V1026
  Sco (HD 142666) and test whether the disk inclination is large enough
  to explain the UX Ori variability. <BR /> Methods: We observed the
  object in the low-resolution mode of the near-infrared interferometric
  VLTI/AMBER instrument and derived H- and K-band visibilities and
  closure phases. We modeled our AMBER observations, published Keck
  Interferometer observations, archival MIDI/VLTI visibilities, and the
  spectral energy distribution using geometric and temperature-gradient
  models. <BR /> Results: Employing a geometric inclined-ring disk
  model, we find a ring radius of 0.15 ± 0.06 AU in the H band and
  0.18 ± 0.06 AU in the K band. The best-fit temperature-gradient
  model consists of a star and two concentric, ring-shaped disks. The
  inner disk has a temperature of 1257<SUP>+133</SUP><SUB>-53</SUB>
  K at the inner rim and extends from 0.19 ± 0.01 AU to 0.23 ± 0.02
  AU. The outer disk begins at 1.35<SUP>+0.19</SUP><SUB>-0.20</SUB>
  AU and has an inner temperature of 334<SUP>+35</SUP><SUB>-17</SUB>
  K. The derived inclination of 48.6<SUP>+2.9</SUP><SUB>-3.6</SUB>°
  approximately agrees with the inclination derived with the geometric
  model (49 ± 5° in the K band and 50 ± 11° in the H band). The
  position angle of the fitted geometric and temperature-gradient
  models are 163 ± 9° (K band; 179 ± 17° in the H band) and
  169.3<SUP>+4.2</SUP><SUB>-6.7</SUB>°, respectively. <BR /> Conclusions:
  The narrow width of the inner ring-shaped model disk and the disk
  gap might be an indication for a puffed-up inner rim shadowing outer
  parts of the disk. The intermediate inclination of ~50° is consistent
  with models of UX Ori objects where dust clouds in the inclined disk
  obscure the central star. <P />Based on observations made with ESO
  telescopes at the La Silla Paranal Observatory under programme IDs
  083.D-0224(C), 083.C-0236(A), 087.C-0013(A) and 073.A-9014(A).Member
  of the International Max Planck Research School (IMPRS) for Astronomy
  and Astrophysics at the Universities of Bonn and Cologne.

---------------------------------------------------------
Title: Milliarcsecond imaging of clumpy dust clouds in the red giant
    L2 Pup with the Very Large Telescope Interferometer
Authors: Ohnaka, K.; Schertl, D.; Hofmann, K. H.; Weigelt, G.
2014apn6.confE..65O    Altcode:
  Despite its importance in mass loss, the dust formation in AGB
  stars is not yet understood well. There is growing evidence that
  the dust envelopes of AGB stars are much more complex--clumpy and/or
  bipolar--than spherically expanding shells. The non-spherical structures
  emerging in AGB stars may be the seed of asymmetry in planetary
  nebulae. However, direct observations of the clumpy dust cloud formation
  close to the star is difficult, because we need milliarcsecond spatial
  resolution. We present milliarcsecond resolution near-IR imaging of the
  bright, nearby M giant L2 Pup. The 2.2 micron image taken with VLT/NACO
  at a spatial resolution of 54 mas shows an asymmetric circumstellar
  envelope with 300 x 200 mas (12 x 8 stellar radii), elongated in
  East-West direction. Furthermore, we succeeded in aperture-synthesis
  imaging of L2 Pup by combining these single-dish VLT/NACO data with
  near-IR interferometric data taken with the AMBER instrument at the Very
  Large Telescope Interferometer. The reconstructed image with a spatial
  resolution of 12 mas shows two clumps at 20--30 mas away from the star,
  as well as another clump over the stellar. This is the first imaging
  of clumpy dust clouds toward L2 Pup, whose presence was only inferred
  from polarimetric and photometric observations. Our observations reveal
  the clumpy dust formation close to the star, at 1.5--2.5 stellar radii.

---------------------------------------------------------
Title: The dusty torus in the Circinus galaxy: a dense disk and the
    torus funnel
Authors: Tristram, Konrad R. W.; Burtscher, Leonard; Jaffe, Walter;
   Meisenheimer, Klaus; Hönig, Sebastian F.; Kishimoto, Makoto;
   Schartmann, Marc; Weigelt, Gerd
2014A&A...563A..82T    Altcode: 2013arXiv1312.4534T
  Context. With infrared interferometry it is possible to resolve the
  nuclear dust distributions that are commonly associated with the dusty
  torus in active galactic nuclei (AGN). The Circinus galaxy hosts the
  closest Seyfert 2 nucleus and previous interferometric observations have
  shown that its nuclear dust emission is particularly well resolved. <BR
  /> Aims: The aim of the present interferometric investigation is to
  better constrain the dust morphology in this active nucleus. <BR />
  Methods: To this end, extensive new observations were carried out with
  the MID-infrared Interferometric instrument (MIDI) at the Very Large
  Telescope Interferometer, leading to a total of 152 correlated flux
  spectra and differential phases between 8 and 13 μm. To interpret
  this data, we used a model consisting of black-body emitters with
  a Gaussian brightness distribution and with dust extinction. <BR />
  Results: The direct analysis of the data and the modelling confirm that
  the emission is distributed in two distinct components: a disk-like
  emission component with a size (FWHM) of ~0.2 × 1.1 pc and an extended
  component with a size of ~0.8 × 1.9 pc. The disk-like component is
  elongated along PA ~ 46° and oriented perpendicular to the ionisation
  cone and outflow. The extended component is responsible for 80%
  of the mid-infrared emission. It is elongated along PA ~ 107°,
  which is roughly perpendicular to the disk component and thus in
  polar direction. It is interpreted as emission from the inner funnel
  of an extended dust distribution and shows a strong increase in the
  extinction towards the south-east. We find both emission components to
  be consistent with dust at T ~ 300 K, that is we find no evidence of an
  increase in the temperature of the dust towards the centre. From this
  we infer that most of the near-infrared emission probably comes from
  parsec scales as well. We further argue that the disk component alone is
  not sufficient to provide the necessary obscuration and collimation of
  the ionising radiation and outflow. The material responsible for this
  must instead be located on scales of ~1 pc, surrounding the disk. We
  associate this material with the dusty torus. <BR /> Conclusions:
  The clear separation of the dust emission into a disk-like emitter
  and a polar elongated source will require an adaptation of our current
  understanding of the dust emission in AGN. The lack of any evidence of
  an increase in the dust temperature towards the centre poses a challenge
  for the picture of a centrally heated dust distribution. <P />Based on
  observations collected at the European Southern Observatory, Chile,
  programme numbers 073.A-9002(A), 060.A-9224(A), 074.B-0213(A/B),
  075.B-0215(A), 077.B-0026(A), 081.B-0893(A), 081.B-0908(A/B),
  383.B-0159(A), 383.B-0993(A), 087.B-0746(C), 087.B-0971(A-C), and
  087.B-0266(H).Appendices are available in electronic form at <A
  href="http://www.aanda.org/10.1051/0004-6361/201322698/olm">http://www.aanda.org</A>

---------------------------------------------------------
Title: Hydrogen lines as a diagnostic tool for studying multicomponent
emitting regions in hot young stars: magnetosphere, X-wind, and
    disk wind
Authors: Tambovtseva, L. V.; Grinin, V. P.; Weigelt, G.
2014A&A...562A.104T    Altcode:
  Infrared interferometric observations with high spatial and
  spectral resolution and their quantitative modeling provide us
  with a unique opportunity to improve our understanding of the
  circumstellar environment of young stars and the accretion-ejection
  process. The goal of this paper is to investigate various models of
  the emitting regions in young Herbig Ae/Be stars that consist of
  (i) a compact rotating magnetosphere; (ii) an X-wind; and (iii) a
  disk wind. These models can be used, for example, to quantitatively
  interpret line profile measurements and infrared interferometric
  observations with the AMBER instrument of the Very Large Telescope
  Interferometer (VLTI) in the high spectral resolution mode (R =
  12 000). VLTI/AMBER observations allow us to resolve the disk wind
  region and study the flux contribution of the unresolved magnetosphere
  and X-wind region to the total line flux. Analyzing the results of
  our non-LTE calculations, we conclude that the mechanisms of the
  different broadening of emission lines of different series include
  (1) the kinematic expansion due to the motion of the outflowing,
  accelerating gas in the magneto-centrifugal disk wind; (2) the Stark
  effect; and (3) the rotation of the magnetosphere. We also investigated
  extinction effects that can influence the shape of the line profiles. We
  considered the obscuration of the outer disk wind by an opaque dust and
  gas disk, the obscuration of the disk wind by a flared disk or by dust
  in the disk wind itself, and absorption of the star and disk continuum
  radiation in the disk wind along the line of sight. We show that due to
  extinction effects, the line profiles can change from double-peaked to
  single-peaked and P Cygni profiles. We studied the contribution of the
  different components of the stellar environment to different hydrogen
  emission lines and investigated how this contribution is dependent on
  the model parameters. The results of this study can be used for the
  detailed modeling of the emitting regions of individual young stars.

---------------------------------------------------------
Title: Evidence of a discontinuous disk structure around the Herbig
    Ae star HD 139614
Authors: Matter, A.; Labadie, L.; Kreplin, A.; Lopez, B.; Wolf, S.;
   Weigelt, G.; Ertel, S.; Pott, J. -U.; Danchi, W. C.
2014A&A...561A..26M    Altcode: 2013arXiv1311.5131M
  The formation and evolution of a planetary system are intrinsically
  linked to the evolution of the primordial accretion disk and its
  dust and gas content. A new class of pre-main sequence objects has
  been recently identified as pre-transitional disks. They present
  near-infrared excess coupled to a flux deficit at about 10 microns and
  a rising mid-infrared and far-infrared spectrum. These features suggest
  a disk structure with inner and outer dust components, separated by a
  dust-depleted region (or gap). This could be the result of particular
  planet formation mechanisms that occur during the disk evolution. We
  here report on the first interferometric observations of the disk
  around the Herbig Ae star HD 139614. Its infrared spectrum suggests
  a flared disk, and presents pre-transitional features, namely a
  substantial near-infrared excess accompanied by a dip around 6 microns
  and a rising mid-infrared part. In this framework, we performed a
  study of the spectral energy distribution (SED) and the mid-infrared
  VLTI/MIDI interferometric data to constrain the spatial structure of
  the inner dust disk region and assess its possibly multi-component
  structure. We based our work on a temperature-gradient disk model
  that includes dust opacity. While we could not reproduce the SED
  and interferometric visibilities with a one-component disk, a better
  agreement was obtained with a two-component disk model composed of
  an optically thin inner disk extending from 0.22 to 2.3 AU, a gap,
  and an outer temperature-gradient disk starting at 5.6 AU. Therefore,
  our modeling favors an extended and optically thin inner dust component
  and in principle rules out the possibility that the near-infrared
  excess originates only from a spatially confined region. Moreover,
  the outer disk is characterized by a very steep temperature profile
  and a temperature higher than 300 K at its inner edge. This suggests
  the existence of a warm component corresponding to a scenario where
  the inner edge of the outer disk is directly illuminated by the
  central star. This is an expected consequence of the presence of a
  gap, thus indicative of a "pre-transitional" structure. <P />Based
  on observations collected at the European Southern Observatory, Chile
  (ESO IDs: 385.C-0886(A) and 087.C-0811(A)).

---------------------------------------------------------
Title: Young massive binary θ <SUP>1</SUP> OriC: Radial velocities
    of components
Authors: Balega, Yu. Yu.; Chentsov, E. L.; Leushin, V. V.; Rzaev,
   A. Kh.; Weigelt, G.
2014AstBu..69...46B    Altcode:
  We succeeded in separating the absorption lines of both the primary
  C1 and the secondary C2 component in the spectra of the young
  massive binary θ <SUP>1</SUP> OriC (O6Vp + B0V, mass sum 44 ± 7
  M <SUB>⊙</SUB>), obtained during the period from November 1995 to
  February 2013 with different telescopes. These observations allowed
  us to derive, for the first time, the radial velocities of both
  components. The orbitalmotion of the secondary star is traced through
  its weak (the line depth is approximately 0.01-0.02) absorption lines
  of CII, NII, OII, Si III, which are broadened by fast rotation of the
  star. Silicon absorptions Si III λλ 4553, 4568, and 4575 are better
  suited for radial velocity measurements than the other lines. From
  the velocity curves, we obtained the systemic velocity of the system,
  γ = 31 ±2 kms<SUP>-1</SUP>, and semi-amplitudes of the C1 and C2
  velocities: K <SUB>1</SUB> = 15 ± 2 kms<SUP>-1</SUP>, K <SUB>2</SUB>
  = 43 ± 3 kms<SUP>-1</SUP>. This leads to individual component masses
  of M <SUB>1</SUB> = 33 ± 5 M <SUB>⊙</SUB> and M <SUB>2</SUB> =
  11 ± 5 M <SUB>⊙</SUB>, based on the adopted mass sum. At present,
  the combined spectroscopic-interferometric orbital solution cannot be
  obtained because of the large scatter of velocity measurements caused
  by chaotic line shifts in the spectrum of the primary star and by the
  weakness of wide absorptions from the secondary. New spectroscopy with
  a resolution of R ≥ 30000 and S/N ratio over 200 performed in the
  period close to the periastron passage in the second half of 2013,
  as well as additional long-baseline interferometry, will be decisive
  in refining the parameters of θ <SUP>1</SUP> OriC. We expect that as
  a result of this campaign, masses and luminosities of the components
  will be determined with an accuracy of 2-3%.

---------------------------------------------------------
Title: LEECH: A 100 Night Exoplanet Imaging Survey at the LBT
Authors: Skemer, Andrew; Apai, Daniel; Bailey, Vanessa; Biller, Beth;
   Bonnefoy, Mickael; Brandner, Wolfgang; Buenzli, Esther; Close, Laird;
   Crepp, Justin; Defrere, Denis; Desidera, Silvano; Eisner, Josh;
   Esposito, Simone; Fortney, Jonathan; Henning, Thomas; Hinz, Phil;
   Hofmann, Karl-Heinz; Leisenring, Jarron; Males, Jared; Millan-Gabet,
   Rafael; Morzinski, Katie; Oza, Apurva; Pascucci, Ilaria; Patience,
   Jenny; Rieke, George; Schertl, Dieter; Schlieder, Joshua; Skrutskie,
   Mike; Su, Kate; Weigelt, Gerd; Woodward, Charles E.; Zimmerman, Neil
2014IAUS..299...70S    Altcode: 2014arXiv1401.0481S
  In February 2013, the LEECH (LBTI Exozodi Exoplanet Common Hunt) survey
  began its 100-night campaign from the Large Binocular Telescope atop
  Mount Graham in Arizona. LEECH neatly complements other high-contrast
  planet imaging efforts by observing stars in L' band (3.8 microns)
  as opposed to the shorter wavelength near-infrared bands (1-2.3
  microns). This part of the spectrum offers deeper mass sensitivity
  for intermediate age (several hundred Myr-old) systems, since their
  Jovian-mass planets radiate predominantly in the mid-infrared. In this
  proceedings, we present the science goals for LEECH and a preliminary
  contrast curve from some early data.

---------------------------------------------------------
Title: The Classic/climb Beam Combiner at the CHARA Array
Authors: Ten Brummelaar, T. A.; Sturmann, J.; Ridgway, S. T.; Sturmann,
   L.; Turner, N. H.; McAlister, H. A.; Farrington, C. D.; Beckmann,
   U.; Weigelt, G.; Shure, M.
2013JAI.....240004T    Altcode:
  In the same way that every telescope has multiple instruments and
  cameras, an interferometric array like the CHARA Array will have
  numerous beam combiners at the back end. And like the instruments of
  a single telescope, each of these combiners will be optimized for a
  particular kind of observation or scientific program. In this paper we
  describe the CLASSIC and CLIMB beam combiners of the CHARA Array. Both
  are open air, aperture plane, wide bandwidth single spectral channel
  instruments optimized for sensitivity. CLASSIC is the original two beam
  combiner used for the first science at CHARA, and it still has the
  faintest magnitude limit. CLIMB is a three beam expansion of CLASSIC
  that can also provide closure phase measurements.

---------------------------------------------------------
Title: Evidence for a Receding Dust Sublimation Region around a
    Supermassive Black Hole
Authors: Kishimoto, Makoto; Hönig, Sebastian F.; Antonucci, Robert;
   Millan-Gabet, Rafael; Barvainis, Richard; Millour, Florentin; Kotani,
   Takayuki; Tristram, Konrad R. W.; Weigelt, Gerd
2013ApJ...775L..36K    Altcode: 2013arXiv1308.6517K
  The near-IR emission in Type 1 active galactic nuclei (AGNs) is thought
  to be dominated by the thermal radiation from dust grains that are
  heated by the central engine in the UV/optical and are almost at the
  sublimation temperature. A brightening of the central source can thus
  further sublimate the innermost dust, leading to an increase in the
  radius of the near-IR emitting region. Such changes in radius have been
  indirectly probed by the measurements of the changes in the time lag
  between the near-IR and UV/optical light variation. Here we report
  direct evidence for such a receding sublimation region through the
  near-IR interferometry of the brightest Type 1 AGN in NGC 4151. The
  increase in radius follows a significant brightening of the central
  engine with a delay of at least a few years, which is thus the implied
  destruction timescale of the innermost dust distribution. Compiling
  historic flux variations and radius measurements, we also infer the
  reformation timescale for the inner dust distribution to be several
  years in this galactic nucleus. More specifically and quantitatively,
  we find that the radius at a given time seems to be correlated with
  a long-term average of the flux over the previous several (~6) years,
  instead of the instantaneous flux. Finally, we also report measurements
  of three more Type 1 AGNs newly observed with the Keck interferometer,
  as well as the second epoch measurements for three other AGNs.

---------------------------------------------------------
Title: HD 85567: A Herbig B[e] star or an interacting B[e]
    binary?. Resolving HD 85567's circumstellar environment with the
    VLTI and AMBER
Authors: Wheelwright, H. E.; Weigelt, G.; Caratti o Garatti, A.;
   Garcia Lopez, R.
2013A&A...558A.116W    Altcode: 2013arXiv1308.6000W
  Context. <ASTROBJ>HD 85567</ASTROBJ> is an enigmatic object exhibiting
  the B[e] phenomenon, i.e. an infrared excess and forbidden emission
  lines in the optical. The object's evolutionary status is uncertain and
  there are conflicting claims that it is either a young stellar object
  (YSO) or an evolved, interacting binary. <BR /> Aims: To elucidate
  the reason for the B[e] behaviour of HD 85567, we have observed
  it with the VLTI and AMBER. <BR /> Methods: Our observations were
  conducted in the K-band with moderate spectral resolution (R ~ 1500,
  i.e. 200 km s<SUP>-1</SUP>). The spectrum of HD 85567 exhibits Brγ
  and CO overtone bandhead emission. The interferometric data obtained
  consist of spectrally dispersed visibilities, closure phases and
  differential phases across these spectral features and the K-band
  continuum. <BR /> Results: The closure phase observations do not reveal
  evidence of asymmetry. The apparent size of HD 85567 in the K-band was
  determined by fitting the visibilities with a ring model. The best
  fitting radius, 0.8 ± 0.3 AU, is relatively small making HD 85567
  undersized in comparison to the size-luminosity relationship based
  on YSOs of low and intermediate luminosity. This has previously been
  found to be the case for luminous YSOs, and it has been proposed that
  this is due to the presence of an optically thick gaseous disc. We
  demonstrate that the differential phase observations over the CO
  bandhead emission are indeed consistent with the presence of a compact
  (~1 AU) gaseous disc interior to the dust sublimation radius. <BR />
  Conclusions: The observations reveal no sign of binarity. However,
  the data do indicate the presence of a gaseous disc interior to the
  dust sublimation radius. We conclude that the data are consistent with
  the hypothesis that HD 85567 is a YSO with an optically thick gaseous
  disc within a larger dust disc that is being photo-evaporated from
  the outer edge. <P />Based on observations conducted at the European
  Southern Observatory, Paranal, Chile, which were obtained via the
  program 089.C-0220.Appendices are available in electronic form at <A
  href="http://www.aanda.org">http://www.aanda.org</A>

---------------------------------------------------------
Title: A diversity of dusty AGN tori. Data release for the VLTI/MIDI
    AGN Large Program and first results for 23 galaxies
Authors: Burtscher, L.; Meisenheimer, K.; Tristram, K. R. W.; Jaffe,
   W.; Hönig, S. F.; Davies, R. I.; Kishimoto, M.; Pott, J. -U.;
   Röttgering, H.; Schartmann, M.; Weigelt, G.; Wolf, S.
2013A&A...558A.149B    Altcode: 2013arXiv1307.2068B
  Context. The AGN-heated dust distribution (the "torus") is increasingly
  recognized not only as the absorber required in unifying models, but
  as a tracer for the reservoir that feeds the nuclear super-massive
  black hole. Yet, even its most basic structural properties (such
  as its extent, geometry and elongation) are unknown for all but
  a few archetypal objects. <BR /> Aims: In order to understand how
  the properties of AGN tori are related to feeding and obscuration,
  we need to resolve the matter distribution on parsec scales. <BR />
  Methods: Since most AGNs are unresolved in the mid-IR, even with
  the largest telescopes, we utilize the MID-infrared interferometric
  Instrument (MIDI) at the Very Large Telescope Interferometer (VLTI)
  that is sensitive to structures as small as a few milli-arcseconds
  (mas). We present here an extensive amount of new interferometric
  observations from the MIDI AGN Large Program (2009-2011) and add
  data from the archive to give a complete view of the existing MIDI
  observations of AGNs. Additionally, we have obtained high-quality
  mid-IR spectra from VLT/VISIR to provide a precise total flux
  reference for the interferometric data. <BR /> Results: We present
  correlated and total fluxes for 23 AGNs (16 of which with new
  data) and derive flux and size estimates at 12 μm using simple
  axisymmetric geometrical models. Perhaps the most surprising result is
  the relatively high level of unresolved flux and its large scatter:
  The median "point source fraction" is 70% for type 1 and 47 % for
  type 2 AGNs meaning that a large part of the flux is concentrated
  on scales &lt;5 mas (0.1-10 pc). Among sources observed with similar
  spatial resolution, it varies from 20%-100%. For 18 of the sources,
  two nuclear components can be distinguished in the radial fits. While
  these models provide good fits to all but the brightest sources,
  significant elongations are detected in eight sources. <BR />
  Conclusions: The half-light radii of the fainter sources are smaller
  than expected from the size ∝L<SUP>0.5</SUP> scaling of the bright
  sources and show a large scatter, especially when compared to the
  relatively tight size-luminosity relation in the near-infrared. It
  is likely that a common "size-luminosity" relation does not exist
  for AGN tori, but that they are dominated by intrinsic differences
  in their dust structures. Variations in the relative contribution of
  extended dust in the narrow line region or heated by star formation
  vs. compact AGN-heated dust and non-thermal emission also have to
  be taken into account. <P />Based on observations collected at the
  European Organisation for Astronomical Research in the Southern
  Hemisphere, Chile, program numbers 184.B-0832, 087.B-0266 (PI:
  K. Meisenheimer), 086.B-0919 (PI: Tristram). Based on data obtained
  from the ESO Science Archive Facility.Tables A.2-A.28 as well as all
  reduced data are only available at the CDS via anonymous ftp to <A
  href="http://cdsarc.u-strasbg.fr">http://cdsarc.u-strasbg.fr</A>
  (ftp://130.79.128.5) or via <A
  href="http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/558/A149">http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/558/A149</A>

---------------------------------------------------------
Title: VizieR Online Data Catalog: VLTI/MIDI AGN Large Program
    observations (Burtscher+, 2013)
Authors: Burtscher, L.; Meisenheimer, K.; Tristram, K. R. W.;
   Jaffe, W.; Honig, S. F.; Davies, R. I.; Kishimoto, M.; Pott, J. -U.;
   Rottgering, H.; Schartmann, M.; Weigelt, G.; Wolf, S.
2013yCat..35580149B    Altcode: 2013yCat..35589149B
  All interferometric observations were carried out with MIDI, the
  MID-infrared interferometric Instrument at the European Southern
  Observatory's (ESO's) Very Large Telescope Interferometer (VLTI)
  on Cerro Paranal, Chile. <P />The MIDI AGN Large Program (ESO
  program number 184.B-0832) consisted of 13.1 nights of Visitor Mode
  observations. Between December 2009 and August 2011, in total 228
  science fringe track observations of 15 AGNs have been observed in
  this program. For this paper, we also include from the archive 159
  previously observed tracks for these sources, 156 fringe tracks of
  other weak AGNs and 132 tracks for the two mid-IR brightest AGNs (NGC
  1068 and the Circinus galaxy). The observing logs of each galaxy can
  be upload in the subdirectory log. <P />OIFITS is the standard for the
  exchange of reduced optical interferometry data. It is an IAU accepted
  standard and defined in Pauls et al. (2005PASP..117.1255P). <P
  />Since we use a special observing technique, detailed in the
  paper, our primary observable is not the visibility but the
  "correlated flux". This is not yet part of the OIFITS specification
  (version 1), but is currently discussed for OIFITS version 2.0
  (http://ipag.obs.ujf-grenoble.fr/twiki/bin/view/Jmmc/OIFITSTwoProject#
  Proposal<SUB>for</SUB>correlated_flux). For the attached data
  I include both the standard VISAMP/VISAMPERR fields which is the
  corr. flux divided by the spectrum used for this source (from VISIR, if
  available, for all sources except Mrk 1239, see the paper) and also new
  CFLUX/CFLUXERR fields that are proposed for OIFITS version 2.0. These
  fields comply with the FITS standard and are ignored by strict OIFITS
  viewers; less strict OIFITS readers like MIA+EWS's oirgetvis() routine
  will read these fields. For NGC 1068, I have downsampled the early
  GRISM observations to PRISM resolution so that they can be combined
  in one file. <P />The total flux can be retrieved from CFLUX/VISAMP
  and its error from flux * sqrt((VISAMPERR/VISAMP)<SUP>2</SUP> -
  (CFLUXERR/CFLUX)<SUP>2</SUP>). <P />(5 data files).

---------------------------------------------------------
Title: Spatially resolved atomic and molecular emission from the
    very low-mass star YLW52
Authors: Garcia Lopez, Rebeca; Caratti o Garatti, Alessio; Weigelt,
   Gerd; Nisini, Brunella; Antoniucci, Simone
2013prpl.conf1K048G    Altcode: 2013arXiv1307.0677G
  Molecular outflows from very low-mass stars (VLMSs) and brown dwarfs
  (BDs) have been studied very little, and only a few objects have been
  directly imaged. Using VLT SINFONI K-band observations, we spatially
  resolved, for the first time, the H2 emission around YLW52, a ~0.1-0.2
  Msun Class I source. The molecular emission shows a complex structure
  delineating a large outflow cavity and an asymmetric molecular jet. In
  addition, new [FeII] VLT ISAAC observations at 1.644 um allowed us to
  discover the atomic jet counterpart which extends down to the central
  source. The outflow structure is similar to those found in low-mass
  Class I young stellar objects (YSOs) and Classical TTauri stars
  (CTTSs). However, its Lacc/Lbol ratio is very high (~80%), and the
  derived mass accretion rate is about one order of magnitude higher
  than in objects with similar mass, pointing to the young nature of
  this source.

---------------------------------------------------------
Title: Revealing the inclined circumstellar disk in the UX Ori system
    KK Ophiuchi
Authors: Kreplin, A.; Weigelt, G.; Kraus, S.; Grinin, V.; Hofmann,
   K. -H.; Kishimoto, M.; Schertl, D.; Tambovtseva, L.; Clausse, J. -M.;
   Massi, F.; Perraut, K.; Stee, Ph.
2013prpl.conf2B025K    Altcode:
  We study the inner sub-AU region of the circumstellar environment of the
  UX Ori type star KK Oph with near-infrared VLTI/AMBER interferometry. We
  are particularly interested in the inclination of the star-disk
  system, and we will use this information to test the current standard
  picture for UX Ori stars. We recorded spectrally dispersed (R∼35)
  interferograms in the near-infrared H and K bands with the VLTI/AMBER
  instrument. The derived visibilities, closure phases and the SED of
  KK Oph were compared with two-dimensional geometric and radiative
  transfer models (RADMC). We obtained visibilities at four different
  position angles. Using two-dimensional geometric models, we derive an
  axis ratio ∼3.0 corresponding to an inclination of ∼70 degree. A
  fitted inclined ring model leads to a ring radius of 2.8 ± 0.2 mas,
  corresponding to 0.44 ± 0.03 AU at a distance of 160 pc, which is
  larger than the dust sublimation radius of ∼0.1 AU predicted for a
  dust sublimation temperature of 1500 K. Our derived two-dimensional
  RADMC model consists of a circumstellar disk with an inclination
  angle of ∼70 degree and an additional dust envelope. The finding
  of an ∼70 degree inclined disk around KK Oph is consistent with
  the prediction that UX Ori objects are seen under large inclination
  angles, and orbiting clouds in the line of sight cause the observed
  variability. Furthermore, our results suggest that the orbit of the
  companion KK Oph B and the disk plane are coplanar.

---------------------------------------------------------
Title: Evidence of a discontinuous inner disk structure around the
    Herbig star HD 139 614
Authors: Matter, Alexis; Labadie, Lucas; Kreplin, Alexander; Lopez,
   Bruno; Wolf, Sebastian; Weigelt, Gerd; Ertel, Steve; Pott, Jörg-Uwe;
   Danchi, William C.
2013prpl.conf2B014M    Altcode:
  A new class of pre-main sequence objects has been recently identified as
  `pre-transitional disks'. They present a near-infrared excess coupled
  to a flux deficit around 10 microns and then a rising mid-infrared
  spectrum. Therefore, they probably represent disk showing an inner
  and outer dust component separated by a dust-depleted region (or
  gap). Such a configuration could be for instance the result of planet
  formation processes occuring during the disk evolution (see e.g. the
  case of LkCa 15; Espaillat et al. 2008, Kraus et al. 2012). We here
  report on the first interferometric observations of the disk around
  the Herbig Ae star HD 139 614. Its infrared spectrum suggests a flared
  disk and presents a substantial near-infrared excess accompanied by a
  dip around 6 microns, then followed by a rising mid-infrared part. We
  modeled both the SED and mid-infrared VLTI/MIDI interferometric data
  to constrain the spatial structure of the inner dust disk region, and
  assess its possibly multi-component organisation. A good agreement
  with the measured mid-infrared SED and interferometric visibilities
  was obtained with an unresolved component emitting at 1500 K, followed
  by a gap extending to 5.9 AU, and an outer temperature-gradient disk
  characterized by a steep temperature profile and a high temperature
  of about 350 K at its inner edge. This suggests a warm component
  corresponding to the inner edge of the outer disk directly illuminated
  by the central star. This is an expected consequence of the presence of
  a gap, possibly indicative of a pre-transitional structure. However,
  our best-fit model underestimated the near-infrared excess. This
  suggests the existence of an extended inner component that is partly
  resolved by MIDI.

---------------------------------------------------------
Title: High spectral resolution imaging of the dynamical atmosphere
    of the red supergiant Antares in the CO first overtone lines with
    VLTI/AMBER
Authors: Ohnaka, K.; Hofmann, K. -H.; Schertl, D.; Weigelt, G.; Baffa,
   C.; Chelli, A.; Petrov, R.; Robbe-Dubois, S.
2013A&A...555A..24O    Altcode: 2013arXiv1304.4800O
  <BR /> Aims: We present aperture-synthesis imaging of the red supergiant
  Antares (α Sco) in the CO first overtone lines. Our goal is to probe
  the structure and dynamics of the outer atmosphere. <BR /> Methods:
  Antares was observed between 2.28 μm and 2.31 μm with VLTI/AMBER
  with spectral resolutions of up to 12 000 and angular resolutions as
  high as 7.2 mas at two epochs with a time interval of one year. <BR />
  Results: The reconstructed images in individual CO lines reveal that
  the star appears differently in the blue wing, line center, and red
  wing. In 2009, the images in the line center and red wing show an
  asymmetrically extended component, while the image in the blue wing
  shows little trace of it. In 2010, however, the extended component
  appears in the line center and blue wing, and the image in the red wing
  shows only a weak signature of the extended component. Our modeling of
  these AMBER data suggests that there is an outer atmosphere (MOLsphere)
  extending to 1.2-1.4 R<SUB>⋆</SUB> with CO column densities of
  (0.5-1) × 10<SUP>20</SUP> cm<SUP>-2</SUP> and a temperature of ~2000
  K. The CO line images observed in 2009 can be explained by a model
  in which a large patch or clump of CO gas is infalling at only 0-5
  km s<SUP>-1</SUP>, while the CO gas in the remaining region is moving
  outward much faster at 20-30 km s<SUP>-1</SUP>. The images observed in
  2010 suggest that a large clump of CO gas is moving outward at 0-5 km
  s<SUP>-1</SUP>, while the CO gas in the remaining region is infalling
  much faster at 20-30 km s<SUP>-1</SUP>. In contrast to the images in the
  CO lines, the AMBER data in the continuum show only a slight deviation
  from limb-darkened disks and only marginal time variations. We derive
  a limb-darkened disk diameter of 37.38 ± 0.06 mas and a power-law-type
  limb-darkening parameter of (8.7 ± 1.6) × 10<SUP>-2</SUP> (2009) and
  37.31 ± 0.09 mas and (1.5 ± 0.2) × 10<SUP>-1</SUP> (2010). We also
  obtain an effective temperature of 3660 ± 120 K (the error includes the
  effects of the temporal flux variation that is assumed to be the same
  as Betelgeuse) and a luminosity of log L<SUB>⋆</SUB>/L<SUB>⊙</SUB>
  = 4.88 ± 0.23. Comparison with theoretical evolutionary tracks
  suggests a mass of 15 ± 5 M<SUB>⊙</SUB> with an age of 11-15
  Myr, which is consistent with the recently estimated age for the
  Upper Scorpius OB association. <BR /> Conclusions: The properties
  of the outer atmosphere of Antares are similar to those of another
  well-studied red supergiant, Betelgeuse. The density of the extended
  outer atmosphere of Antares and Betelgeuse is higher than predicted
  by the current 3D convection simulations by at least six orders of
  magnitude, implying that convection alone cannot explain the formation
  of the extended outer atmosphere. <P />Based on AMBER observations
  made with the Very Large Telescope Interferometer of the European
  Southern Observatory. Program ID: 083.D-0333(A/B) (AMBER guaranteed time
  observation), 085.D-0085(A/B).Appendices are available in electronic
  form at <A href="http://www.aanda.org">http://www.aanda.org</A>Movies
  of data cube are only available at the CDS via anonymous ftp to <A
  href="http://cdsarc.u-strasbg.fr">http://cdsarc.u-strasbg.fr</A>
  (ftp://130.79.128.5) or via <A
  href="http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/555/A24">http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/555/A24</A>

---------------------------------------------------------
Title: A 100-Night Exoplanet Imaging Survey at the LBT
Authors: Zimmerman, Neil; Skemer, Andrew; Apai, Daniel; Bailey,
   Vanessa; Biller, Beth; Bonnefoy, Mickael; Brandner, Wolfgang; Buenzli,
   Esther; Close, Laird; Crepp, Justin; Defrere, Denis; Desidera, Silvano;
   Eisner, Josh; Esposito, Simone; Fortney, Jonathan; Henning, Thomas;
   Hinz, Phil; Hofmann, Karl-Heinz; Leisenring, Jarron; Males, Jared;
   Millan-Gabet, Rafael; Morzinski, Katie; Pascucci, Ilaria; Patience,
   Jenny; Rieke, George; Schertl, Dieter; Schlieder, Joshua; Skrutskie,
   Michael; Su, Kate; Woodward, Chick; Weigelt, Gerd
2013prpl.conf2K006Z    Altcode:
  In February 2013, the LEECH (LBTI Exozodi Exoplanet Common Hunt) survey
  began its 100-night campaign from the Large Binocular Telescope atop
  Mount Graham in Arizona. LEECH neatly complements other high-contrast
  planet imaging efforts by observing stars in L' band (3.8 microns)
  as opposed to the shorter wavelength near-infrared bands (1-2.3
  microns). This part of the spectrum offers deeper mass sensitivity
  for intermediate age (several hundred Myr-old) systems, since their
  Jovian-mass planets radiate predominantly in the mid-infrared. We
  present the science goals for LEECH and a preliminary contrast curve
  from some early data.

---------------------------------------------------------
Title: Dust in the Polar Region as a Major Contributor to the Infrared
    Emission of Active Galactic Nuclei
Authors: Hönig, S. F.; Kishimoto, M.; Tristram, K. R. W.; Prieto,
   M. A.; Gandhi, P.; Asmus, D.; Antonucci, R.; Burtscher, L.; Duschl,
   W. J.; Weigelt, G.
2013ApJ...771...87H    Altcode: 2013arXiv1306.4312H
  Dust around active galactic nuclei (AGNs) is distributed over a wide
  range of spatial scales and can be observed in the infrared (IR). It
  is generally assumed that the distribution on parsec scales forms a
  geometrically and optically thick entity in the equatorial plane around
  the accretion disk and broad-line region—dubbed "dust torus"—that
  emits the bulk of the subarcsecond-scale IR emission and gives rise to
  orientation-dependent obscuration. However, recent IR interferometry
  studies with unprecedented position angle (P.A.) and baseline coverage
  on these small scales in two obscured (type 2) AGNs have revealed that
  the majority of the mid-IR emission in these objects is elongated in the
  polar direction. These observations are difficult to reconcile with the
  standard interpretation that most of the parsec-scale mid-IR emission
  in AGNs originate from the torus and challenges the justification of
  using simple torus models to model the broadband IR emission. Here,
  we report detailed interferometry observations of the unobscured (type
  1) AGN in NGC 3783 that allow us to constrain the size, elongation,
  and direction of the mid-IR emission with high accuracy. The mid-IR
  emission is characterized by a strong elongation toward position angle
  P.A. -52°, closely aligned with the polar axis (P.A. -45°). We
  determine half-light radii along the major and minor axes at 12.5
  μm of (20.0 ± 3.0) mas × (6.7 ± 1.0) mas or (4.23 ± 0.63) pc ×
  (1.42 ± 0.21) pc, which corresponds to intrinsically scaled sizes
  of (69.4 ± 10.8) r <SUB>in</SUB> × (23.3 ± 3.5) r <SUB>in</SUB>
  for the inner dust radius of r <SUB>in</SUB> = 0.061 pc as inferred
  from near-IR reverberation mapping. This implies an axis ratio of
  3:1, with about 60%-90% of the 8-13 μm emission associated with
  the polar-elongated component. It is quite likely that the hot-dust
  emission as recently resolved by near-IR interferometry is misaligned
  with the mid-IR emitting source, which also finds a correspondence in
  the two distinct 3-5 μm and 20 μm bumps seen in the high angular
  resolution spectral energy distribution (SED). Based on this SED,
  we determine covering factors for the hot and warm dust components of
  C_{hot} = 0.42^{+0.42}_{-0.21} and C_{warm} = 0.92^{+0.92}_{-0.46},
  respectively. We conclude that these observations support a scenario
  where the majority of the mid-IR emission in Seyfert AGNs originate
  from a dusty wind in the polar region of the AGN.

---------------------------------------------------------
Title: VizieR Online Data Catalog: Aperture-synthesis imaging of
    Antares (Ohnaka+, 2013)
Authors: Ohnaka, K.; Hofmann, K. -H.; Schertl, D.; Weigelt, G.; Baffa,
   C.; Chelli, A.; Petrov, R.; Robbe-Dubois, S.
2013yCat..35550024O    Altcode: 2013yCat..35559024O
  Two animated gif movies made from high spectral resolution aperture-
  synthesis imaging of the red supergiant Antares in the CO first
  overtone lines near 2.3 micron. The observations were carried out
  with the near-IR interferometric instrument AMBER at the Very Large
  Telescope Interferometer with a spatial resolution of 9.8 mas and a
  spectral resolution of 8000. The movies are based on the data taken in
  2009. <P />The first movie (alfsco1.gif) shows the observed CO line
  spectrum from 2.28 and 2.31 micron in the lower panel (normalized
  with the continuum). As the dot in the lower panel moves across the
  spectrum, the image reconstructed at each wavelength is shown in the
  upper panel. The reconstructed image at each wavelength is normalized
  with its peak intensity. The images at 2.303275 and 2.303455 micron
  are severely affected by bad data points and are unreliable. <P />The
  second movie (alfsco2.gif) shows the spatially resolved spectrum at
  each position along a line across the stellar image. The movie shows,
  in the lower panel, the reconstructed image of Antares in the center
  of the CO line at 2.3058 micron. As the gray dot moves across the
  stellar image, the spatially resolved spectrum at each position is
  shown in red in the upper panel. The spatially resolved spectra are
  scaled for comparison with the spatially unresolved spectrum shown in
  black. The extraction of the spatially resolved spectra is described
  in Sect. 3.3. <P />(3 data files).

---------------------------------------------------------
Title: LBT/LUCIFER near-infrared spectroscopy of PV Cephei. An
    outbursting young stellar object with an asymmetric jet
Authors: Caratti o Garatti, A.; Garcia Lopez, R.; Weigelt, G.;
   Tambovtseva, L. V.; Grinin, V. P.; Wheelwright, H.; Ilee, J. D.
2013A&A...554A..66C    Altcode: 2013arXiv1304.6267G; 2013A&A...554A..66G
  Context. Young stellar objects (YSOs) occasionally experience enhanced
  accretion events, the nature of which is still poorly understood. The
  discovery of various embedded outbursting YSOs has recently questioned
  the classical definition of EXors and FUors. <BR /> Aims: We present
  a detailed spectroscopic investigation of the young eruptive star PV
  Cep, to improve our understanding of its nature and characterise its
  circumstellar environment after its last outburst in 2004. <BR />
  Methods: The analysis of our medium-resolution spectroscopy in the
  near-infrared (NIR, 0.9-2.35 μm), collected in 2012 at the Large
  Binocular Telescope with the IR spectrograph LUCIFER, allows us to infer
  the main stellar parameters (visual extinction, accretion luminosity,
  mass accretion and ejection rates), and model the inner disc, jet, and
  wind. <BR /> Results: The NIR spectrum displays several strong emission
  lines associated with accretion/ejection activity and circumstellar
  environment. Our analysis shows that the brightness of PV Cep is fading,
  as well as the mass accretion rate (2 × 10<SUP>-7</SUP> M<SUB>⊙</SUB>
  yr<SUP>-1</SUP> in 2012 vs. ~5 × 10<SUP>-6</SUP> M<SUB>⊙</SUB>
  yr<SUP>-1</SUP> in 2004), which is more than one order of magnitude
  lower than in the outburst phase. Among the several emission lines,
  only the [Fe ii] intensity increased after the outburst. The observed
  [Fe ii] emission delineates blue- and red-shifted lobes, both with
  high- and low-velocity components, which trace an asymmetric jet and
  wind, respectively. The observed emission in the jet has a dynamical
  age of 7-8 years, indicating that it was produced during the last
  outburst. The visual extinction decreases moving from the red-shifted
  (A<SUB>V</SUB>(red) = 10.1 ± 0.7 mag) to the blue-shifted lobe
  (A<SUB>V</SUB>(blue) = 6.5 ± 0.4 mag). We measure an average
  electron temperature of 17 500 K and electron densities of 30 000
  cm<SUP>-3</SUP> and 15 000 cm<SUP>-3</SUP> for the blue and the red
  lobe, respectively. The mass ejection rate in both lobes is ~1.5
  × 10<SUP>-7</SUP> M<SUB>⊙</SUB> yr<SUP>-1</SUP>, approximately
  matching the high accretion rate observed during and immediately after
  the outburst (Ṁ<SUB>out</SUB>/Ṁ<SUB>acc</SUB> ~ 0.05-0.1). The
  observed jet/outflow asymmetries are consistent with an inhomogeneous
  medium. Our modelling of the CO emission hints at a small-scale gaseous
  disc ring, extending from ~0.2-0.4 AU to ~3 AU from the source, with
  an inner temperature of ~3000 K. Our H i lines modelling indicates
  that most of the observed emission comes from an expanding disc wind
  at T<SUB>e</SUB> = 10 000 K. The line profiles are strongly affected
  by scattering, disc screening, and outflow self-absorption. <BR />
  Conclusions: According to the classical definition, PV Cep is not
  an EXor object, because it is more massive and younger than typical
  EXors. Nevertheless, its spectrum shows the signature of an "EXor-like"
  outburst, suggesting a common origin. <P />Based on observations
  collected at LBT. The LBT is an international collaboration among
  institutions in the United States, Italy and Germany. LBT Corporation
  partners are: LBT Beteiligungsgesellschaft, Germany, representing
  the Max-Planck Society, the Astrophysical Institute Potsdam,
  and Heidelberg University; The University of Arizona on behalf of
  the Arizona university system; Istituto Nazionale di Astrofisica,
  Italy; The Ohio State University, and The Research Corporation, on
  behalf of The University of Notre Dame, University of Minnesota and
  University of Virginia.Appendix A is available in electronic form at
  <A href="http://www.aanda.org">http://www.aanda.org</A>

---------------------------------------------------------
Title: Spatially resolved H<SUB>2</SUB> emission from a very
    low-mass star
Authors: Garcia Lopez, R.; Caratti o Garatti, A.; Weigelt, G.; Nisini,
   B.; Antoniucci, S.
2013A&A...552L...2G    Altcode: 2013arXiv1302.6749G
  Context. Molecular outflows from very low-mass stars (VLMSs) and
  brown dwarfs have been studied very little. So far, only a few
  CO outflows have been observed, allowing us to map the immediate
  circumstellar environment. <BR /> Aims: We present the first
  spatially resolved H<SUB>2</SUB> emission around IRS54 (YLW 52),
  a ~0.1-0.2 M<SUB>⊙</SUB> Class I source. <BR /> Methods: By means
  of VLT SINFONI K-band observations, we probed the H<SUB>2</SUB>
  emission down to the first ~50 AU from the source. <BR /> Results:
  The molecular emission shows a complex structure delineating a large
  outflow cavity and an asymmetric molecular jet. Thanks to the detection
  of several H<SUB>2</SUB> transitions, we are able to estimate average
  values along the jet-like structure (from source position to knot D)
  of A<SUB>V</SUB> ~ 28 mag, T ~ 2000-3000 K, and H<SUB>2</SUB> column
  density N(H<SUB>2</SUB>) ~ 1.7 × 10<SUP>17</SUP> cm<SUP>-2</SUP>. This
  allows us to estimate a mass loss rate of ~2 × 10<SUP>-10</SUP>
  M<SUB>⊙</SUB> yr<SUP>-1</SUP> for the warm H<SUB>2</SUB> component. In
  addition, from the total flux of the Br γ line, we infer an accretion
  luminosity and mass accretion rate of 0.64 L<SUB>⊙</SUB> and ~3
  × 10<SUP>-7</SUP>M<SUB>⊙</SUB> yr<SUP>-1</SUP>, respectively. The
  outflow structure is similar to those found in low-mass Class I and
  CTTS. However, the L<SUB>acc</SUB>/L<SUB>bol</SUB> ratio is very high
  (~80%), and the mass accretion rate is about one order of magnitude
  higher when compared to objects of roughly the same mass, pointing to
  the young nature of the investigated source. <P />Based on observations
  collected at the European Southern Observatory Paranal, Chile (ESO
  programme 385.C-0893(A)).Appendices are available in electronic
  form at <A href="http://www.aanda.org">http://www.aanda.org</A>The
  reduced datacube is only available at the CDS via anonymous ftp to
  <A href="http://cdsarc.u-strasbg.fr">cdsarc.u-strasbg.fr</A>(<A
  href="http://130.79.128.5">130.79.128.5</A>) or via <A
  href="http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/552/L2">http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/552/L2</A>

---------------------------------------------------------
Title: Pre-main-sequence binaries with tidally disrupted discs:
    the Brγ in HD 104237
Authors: Garcia, P. J. V.; Benisty, M.; Dougados, C.; Bacciotti, F.;
   Clausse, J. -M.; Massi, F.; Mérand, A.; Petrov, R.; Weigelt, G.
2013MNRAS.430.1839G    Altcode: 2013arXiv1301.0276G
  Active pre-main-sequence binaries with separations of around 10
  stellar radii present a wealth of phenomena unobserved in common
  systems. The study of these objects is extended from classical
  T Tauri stars to the Herbig Ae star HD 104237. The primary
  has a mass 2.2 ± 0.2 M<SUB>⊙</SUB> and secondary 1.4 ± 0.3
  M<SUB>⊙</SUB>. Spectrointerferometry with the VLTI/AMBER in the
  K-band continuum and the Brγ line is presented. <P />It is found
  that the K-band continuum squared visibilities are compatible with a
  circumbinary disc with a radius of ∼0.5 AU. However, a significant
  fraction (∼50 per cent) of the flux is unresolved and not fully
  accounted by the stellar photospheres. The stars probably do not hold
  circumstellar discs, in addition to the circumbinary disc, due to the
  combined effects of inner magnetospheric truncation and outer tidal
  truncation. This unresolved flux likely arises in compact structures
  inside the tidally disrupted circumbinary disc. <P />Most (≳90 per
  cent) of the Brγ line emission is unresolved. The line-to-continuum
  spectroastrometry shifts in time, along the direction of the Lyα
  jet known to be driven by the system. The shift is anticorrelated
  with the Brγ equivalent width. It is shown that the unresolved Brγ
  emission cannot originate in the jet but instead is compatible with
  stellar emission from the orbiting binary components. The increase
  in the absolute value of the equivalent width of the line takes place
  at periastron passage; it could arise in an accretion burst, a flare
  or in the increase in effective size of the emission region by the
  interaction of the magnetospheres. The binary longitude of the ascending
  node is found to be Ω = (235 ± 3)° and the orbit retrograde. <P
  />The origin of the jet is revisited. The tidal disruption of the
  circumstellar discs creates difficulties to ejection models that rely
  on stellar magnetosphere and disc coupling. A scenario of a stellar
  wind collimated by a circumbinary disc wind is suggested.

---------------------------------------------------------
Title: Revealing the inclined circumstellar disk in the UX Orionis
    system KK Ophiuchi
Authors: Kreplin, A.; Weigelt, G.; Kraus, S.; Grinin, V.; Hofmann,
   K. -H.; Kishimoto, M.; Schertl, D.; Tambovtseva, L.; Clausse, J. -M.;
   Massi, F.; Perraut, K.; Stee, Ph.
2013A&A...551A..21K    Altcode:
  <BR /> Aims: We study the inner sub-AU region of the circumstellar
  environment of the UX Ori-type star <ASTROBJ>KK Oph</ASTROBJ> with
  near-infrared VLTI/AMBER interferometry. We are particularly interested
  in the inclination of the star-disk system, and we use this information
  to test the current standard picture for UX Ori stars. <BR /> Methods:
  We recorded spectrally dispersed (R ~ 35) interferograms in the
  near-infrared H and K bands with the VLTI/AMBER instrument. The derived
  visibilities, closure phases, and the spectral energy distribution
  of KK Oph were compared with two-dimensional geometric and radiative
  transfer models (RADMC). <BR /> Results: We obtained visibilities at
  four different position angles. Using two-dimensional geometric models,
  we derive an axis ratio ~3.0 corresponding to an inclination of ~70°. A
  fitted inclined ring model leads to a ring radius of 2.8 ± 0.2 mas,
  corresponding to 0.44 ± 0.03 AU at a distance of 160 pc, which is
  larger than the dust sublimation radius of ~0.1 AU predicted for a
  dust sublimation temperature of 1500 K. Our derived two-dimensional
  RADMC model consists of a circumstellar disk with an inclination
  angle of ~70° and an additional dust envelope. <BR /> Conclusions:
  The finding of an ~70° inclined disk around KK Oph is consistent with
  the prediction that UX Ori objects are seen under large inclination
  angles, and orbiting clouds in the line of sight cause the observed
  variability. Furthermore, our results suggest that the orbit of the
  companion KK Oph B and the disk plane are coplanar. <P />Based on
  observations made with ESO telescopes at Paranal Observatory under
  program ID: 083.D-0224(C) and 088.C-0575(A).

---------------------------------------------------------
Title: Resolving the innermost dusty accretion in the brightest Type
    1 AGN with the CHARA array
Authors: Kishimoto, Makoto; Barvainis, Richard; Antonucci, Robert;
   Hoenig, Sebastian; Millour, Florentin; Tristram, Konrad; Weigelt, Gerd
2013noao.prop..241K    Altcode:
  We believe that we have finally started to spatially resolve and
  quantify the innermost dusty structure in AGN tori with long-baseline
  interferometry in the infrared. A major goal here is to see if
  the inner radial distribution of the accreting material is closely
  related to the mode of the central engine: based on the results so
  far, this might indeed be the case. However, our previous and on-going
  observations have a big limitation in the baseline length, with which
  we can only marginally resolve the structure, leaving ambiguity in the
  interpretation of the data. Here we propose to break this limit by
  using the very long baselines offered in the CHARA array. This will
  test our fundamental picture and conclusively measure the innermost
  dusty structure in the brightest Type 1 AGN.

---------------------------------------------------------
Title: Unveiling the inner structure of EXor eruptive variables
Authors: Kloppenborg, Brian; Antoniucci, Simone; Li Causi, Gianluca;
   Lorenzetti, Dario; Giannini, Teresa; Weigelt, Gerd; Kishimoto, Makoto
2013noao.prop..151K    Altcode:
  We plan to conduct the first comprehensive high spatial resolution study
  of EXor objects in order to understand the mechanism regulating their
  recurrent accretion outburst and to access the differences/similarities
  with respect to other classes of YSO objects such as FUors and
  classical T Tauri stars. Here we propose a mini survey of four EXors
  that are observable with both CHARA and the VLTI. We will derive the
  properties of the inner/outer disk and of emission line regions with
  radiative transfer codes and compare the results to those obtained
  for T Tauri stars. As the objects will most likely be in quiescence,
  these interferometric data will serve as a pre-outburst baseline for
  a future comparative analysis between quiescence and outburst phases,
  which we plan to perform. To this aim we are now beginning a photometric
  and spectroscopic EXor monitoring program that will ensure we promptly
  detect any future outburst of known EXors.

---------------------------------------------------------
Title: VizieR Online Data Catalog: SINFONI K-band observations of
    IRS54(YLW52) (Garcia Lopez+, 2013)
Authors: Garcia Lopez, R.; Caratti, O. Garatti A.; Weigelt, G.;
   Nisini, B.; Antoniucci, S.
2013yCat..35529002G    Altcode:
  SINFONI K-band integral field spectroscopic datacube of the YSO IRS54
  (YLW52) at medium resolution (R~4000). <P />The main data reduction
  process was done using the SINFONI data-reduction pipeline, i.e.,
  dark and bad pixel masks, flat-field corrections, optical distortion
  correction, and wavelength calibration using arc lamps. <P />A
  systematic wavelength shift of ~2.2 Angstroms was found and should be
  taken into account. <P />The STARLINK software was used to correct
  the spectrum from atmospheric absorption and to flux-calibrate the
  data. Flux units are erg/s/cm^2; Wavelength units are microns. <P />(2
  data files).

---------------------------------------------------------
Title: Spatially resolved atomic and molecular emission from the
    very low-mass star IRS54.
Authors: Garcia Lopez, R.; Caratti o Garatti, A.; Weigelt, G.; Nisini,
   B.; Antoniucci, S.
2013MmSAI..84..875G    Altcode:
  Molecular outflows from very low-mass stars and brown dwarfs have
  been studied very little, and only a few objects have been directly
  imaged. Using VLT SINFONI K-band observations, we spatially resolved,
  for the first time, the H_2 emission around IRS54, a ∼0.1-0.2 M_⊙
  Class I source. The molecular emission shows a complex structure
  delineating a large outflow cavity and an asymmetric molecular jet. In
  addition, new [Fe II] VLT ISAAC observations at 1.644 mu m allowed us to
  discover the atomic jet counterpart which extends down to the central
  source. The outflow structure is similar to those found in low-mass
  Class I young stellar objects and Classical T Tauri stars. However, its
  L_acc/L_bol ratio is very high (∼80%), and the derived mass accretion
  rate is about one order of magnitude higher than in objects with
  similar mass, pointing to the young nature of the investigated source.

---------------------------------------------------------
Title: A Companion as the Cause of Latitude-dependent Effects in
    the Wind of Eta Carinae
Authors: Groh, J. H.; Madura, T. I.; Hillier, D. J.; Kruip, C. J. H.;
   Weigelt, G.
2012ApJ...759L...2G    Altcode: 2012arXiv1210.2709G
  We analyze spatially resolved spectroscopic observations of the Eta
  Carinae binary system obtained with the Hubble Space Telescope/STIS. Eta
  Car is enshrouded by the dusty Homunculus nebula, which scatters light
  emitted by the central binary and provides a unique opportunity to study
  a massive binary system from different vantage points. We investigate
  the latitudinal and azimuthal dependence of Hα line profiles caused
  by the presence of a wind-wind collision (WWC) cavity created by
  the companion star. Using two-dimensional radiative transfer models,
  we find that the wind cavity can qualitatively explain the observed
  line profiles around apastron. Regions of the Homunculus which
  scatter light that propagated through the WWC cavity show weaker or
  no Hα absorption. Regions scattering light that propagated through
  a significant portion of the primary wind show stronger P Cygni
  absorption. Our models overestimate the Hα absorption formed in the
  primary wind, which we attribute to photoionization by the companion,
  not presently included in the models. We can qualitatively explain
  the latitudinal changes that occur during periastron, shedding light
  on the nature of Eta Car's spectroscopic events. Our models support
  the idea that during the brief period of time around periastron when
  the primary wind flows unimpeded toward the observer, Hα absorption
  occurs in directions toward the central object and Homunculus SE pole,
  but not toward equatorial regions close to the Weigelt blobs. We suggest
  that observed latitudinal and azimuthal variations are dominated by
  the companion star via the WWC cavity, rather than by rapid rotation
  of the primary star. <P />Based on observations made with HST/STIS.

---------------------------------------------------------
Title: AMBER/VLTI observations of the B[e] star MWC 300
Authors: Wang, Y.; Weigelt, G.; Kreplin, A.; Hofmann, K. -H.; Kraus,
   S.; Miroshnichenko, A. S.; Schertl, D.; Chelli, A.; Domiciano de Souza,
   A.; Massi, F.; Robbe-Dubois, S.
2012A&A...545L..10W    Altcode: 2012arXiv1208.5882W
  <BR /> Aims: We study the enigmatic B[e] star MWC 300 to investigate its
  disk and binary with milli-arcsecond-scale angular resolution. <BR />
  Methods: We observed MWC 300 with the VLTI/AMBER instrument in the H
  and K bands and compared these observations with temperature-gradient
  models to derive model parameters. <BR /> Results: The measured
  low visibility values, wavelength dependence of the visibilities,
  and wavelength dependence of the closure phase directly suggest that
  MWC 300 consists of a resolved disk and a close binary. We present
  a model consisting of a binary and a temperature-gradient disk that
  is able to reproduce the visibilities, closure phases, and spectral
  energy distribution. This model allows us to constrain the projected
  binary separation (~4.4 mas or ~7.9 AU), the flux ratio of the binary
  components (~2.2), the disk temperature power-law index, and other
  parameters. <P />Based on observations made with ESO telescopes at
  Paranal Observatory under program ID 083.D-0224(C).

---------------------------------------------------------
Title: VizieR Online Data Catalog: Interferometry of α Eri (Domiciano
    de Souza+, 2012)
Authors: Domiciano de Souza, A.; Hadjara, M.; Vakili, F.; Bendjoya,
   P.; Millour, F.; Abe, L.; Carciofi, A. C.; Faes, D. M.; Kervella,
   P.; Lagarde, S.; Marconi, A.; Monin, J. -L.; Niccolini, G.; Petrov,
   R. G.; Weigelt, G.
2012yCat..35450130D    Altcode: 2012yCat..35459130D
  We used the AMBER focal instrument at ESO-VLTI in its high spectral
  resolution mode to record interferometric data on the fast rotator
  Achernar. Differential phases centered on the hydrogen Brγ line
  (K band) were obtained during four almost consecutive nights with a
  continuous Earth-rotation synthesis during ~5h/night, corresponding
  to ~60° position angle coverage per baseline. These observations
  were interpreted with our numerical code dedicated to long-baseline
  interferometry of rotating stars. <P />(2 data files).

---------------------------------------------------------
Title: Beyond the diffraction limit of optical/IR
    interferometers. I. Angular diameter and rotation parameters of
    Achernar from differential phases
Authors: Domiciano de Souza, A.; Hadjara, M.; Vakili, F.; Bendjoya,
   P.; Millour, F.; Abe, L.; Carciofi, A. C.; Faes, D. M.; Kervella,
   P.; Lagarde, S.; Marconi, A.; Monin, J. -L.; Niccolini, G.; Petrov,
   R. G.; Weigelt, G.
2012A&A...545A.130D    Altcode:
  Context. Spectrally resolved long-baseline optical/IR interferometry
  of rotating stars opens perspectives to investigate their fundamental
  parameters and the physical mechanisms that govern their interior,
  photosphere, and circumstellar envelope structures. <BR /> Aims: Based
  on the signatures of stellar rotation on observed interferometric
  wavelength-differential phases, we aim to measure angular diameters,
  rotation velocities, and orientation of stellar rotation axes. <BR
  /> Methods: We used the AMBER focal instrument at ESO-VLTI in its
  high-spectral resolution mode to record interferometric data on the
  fast rotator Achernar. Differential phases centered on the hydrogen
  Br γ line (K band) were obtained during four almost consecutive
  nights with a continuous Earth-rotation synthesis during ~5 h/night,
  corresponding to ~60° position angle coverage per baseline. These
  observations were interpreted with our numerical code dedicated
  to long-baseline interferometry of rotating stars. <BR /> Results:
  By fitting our model to Achernar's differential phases from AMBER,
  we could measure its equatorial radius R<SUB>eq</SUB> = 11.6 ± 0.3
  R<SUB>⊙</SUB>, equatorial rotation velocity V<SUB>eq</SUB> = 298 ± 9
  km s<SUP>-1</SUP>, rotation axis inclination angle i = 101.5 ± 5.2°,
  and rotation axis position angle (from North to East) PA<SUB>rot</SUB>
  = 34.9 ± 1.6°. From these parameters and the stellar distance, the
  equatorial angular diameter ⌀<SUB>eq</SUB> of Achernar is found to be
  2.45 ± 0.09 mas, which is compatible with previous values derived from
  the commonly used visibility amplitude. In particular, ⌀<SUB>eq</SUB>
  and PA<SUB>rot</SUB> measured in this work with VLTI/AMBER are
  compatible with the values previously obtained with VLTI/VINCI. <BR />
  Conclusions: The present paper, based on real data, demonstrates the
  super-resolution potential of differential interferometry for measuring
  sizes, rotation velocities, and orientation of rotating stars in cases
  where visibility amplitudes are unavailable and/or when the star is
  partially or poorly resolved. In particular, we showed that differential
  phases allow the measurement of sizes up to ~4 times smaller than
  the diffraction-limited angular resolution of the interferometer. <P
  />Based on observations performed at ESO, Chile under AMBER-consortium
  GTO programme ID 084.D-0456.Full Fig. 5 is available in electronic
  form at <A href="http://www.aanda.org">http://www.aanda.org</A>The
  FITS tables of the reduced data are only available at the CDS
  via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5) or via <A
  href="http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/545/A130">http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/545/A130</A>

---------------------------------------------------------
Title: Parsec-scale Dust Emission from the Polar Region in the Type
    2 Nucleus of NGC 424
Authors: Hönig, S. F.; Kishimoto, M.; Antonucci, R.; Marconi, A.;
   Prieto, M. A.; Tristram, K.; Weigelt, G.
2012ApJ...755..149H    Altcode: 2012arXiv1206.4307H
  Advancements in infrared (IR) interferometry open up the possibility
  to spatially resolve active galactic nuclei (AGNs) on the parsec-scale
  level and study the circumnuclear dust distribution, commonly referred
  to as the "dust torus," that is held responsible for the type 1/type
  2 dichotomy of AGNs. We used the mid-IR beam combiner MIDI together
  with the 8 m telescopes at the Very Large Telescope Interferometer
  to observe the nucleus of the Seyfert 2 galaxy NGC 424, achieving an
  almost complete coverage of the uv-plane accessible by the available
  telescope configurations. We detect extended mid-IR emission with a
  relatively baseline- and model-independent mid-IR half-light radius
  of (2.0 ± 0.2) pc × (1.5 ± 0.3) pc (averaged over the 8-13 μm
  wavelength range). The extended mid-IR source shows an increasing size
  with wavelength. These properties are in agreement with the idea of
  dust heated in thermal equilibrium with the AGN. The orientation of
  the major axis in position angle ~ - 27° is closely aligned with the
  system axis as set by optical polarization observations. Torus models
  typically favor extension along the mid-plane at mid-IR wavelengths
  instead. Therefore, we conclude that the majority of the parsec-scale
  mid-IR emission (gsim60%) in this type 2 AGN originates from optically
  thin dust in the polar region of the AGN, a scenario consistent with
  the near- to far-IR spectral energy distribution. We suggest that
  a radiatively driven dusty wind, possibly launched in a puffed-up
  region of the inner hot part of the torus, is responsible for the polar
  dust. In this picture, the torus dominates the near-IR emission up to
  about 5 μm, while the polar dust is the main contributor to the mid-IR
  flux. Our results of NGC 424 are consistent with recent observations of
  the AGN in the Circinus galaxy and resemble large-scale characteristics
  of other objects. If our results reflect a general property of the AGN
  population, the current paradigm for interpreting and modeling the IR
  emission of AGNs has to be revised.

---------------------------------------------------------
Title: Spectral line profiles changed by dust scattering in heavily
    obscured young stellar objects
Authors: Grinin, V. P.; Tambovtseva, L. V.; Weigelt, G.
2012A&A...544A..45G    Altcode: 2012arXiv1207.2576G
  It is known that scattering of radiation by circumstellar dust can
  strongly change the line profiles in stellar spectra. This hampers
  the analysis of spectral lines originating in the emitting regions of
  heavily obscured young stars. To calculate the line profile of the
  scattered radiation, we suggest to use the approximation of remote
  scattering particles. This approximation assumes that the scattering
  dust grains are at a distance from the star that is much larger than
  the characteristic size of the emitting region. Using this method,
  we calculated the line profiles of several simple models. They show
  the Hα line profiles of Herbig AeBe stars in the presence and absence
  of motionless or moving dust.

---------------------------------------------------------
Title: LINC-NIRVANA: assembly, integration, and verification update
Authors: Herbst, T. M.; Ragazzoni, R.; Eckart, A.; Weigelt, G.
2012SPIE.8445E..0VH    Altcode:
  We present an update on the LINC-NIRVANA (LN) instrument, an innovative
  Fizeau-mode beam combiner for the Large Binocular Telescope (LBT). LN
  will deliver 10 mas spatial resolution in the near infrared over a 10
  arcsec field of view. In addition to optical-path-difference control,
  the instrument must correct a wide field of view on the sky using
  multi-conjugated adaptive optics. This substantially increases sky
  coverage for fringe tracking reference stars. Subsystem delivery
  and testing is almost complete, and final Assembly, Integration,
  and Verification are well advanced. We report on closed-loop control
  of a number of subsystems, including fine-tuning and optimization of
  the delay line. Measurement and remediation of instrument flexure are
  key to the success of LN. Several laboratory performance experiments
  demonstrate that components are within specification. With several
  interacting subsystems, LN faces a complexity challenge. A Pathfinder
  experiment at LBT will verify multiple aspects of LINC-NIRVANA and the
  telescope starting in winter 2012-2013. Finally, we report on efforts
  to prepare for early science exploitation in "LINC" mode, which uses
  single-conjugate adaptive optics.

---------------------------------------------------------
Title: Revealing the inner circumstellar disk of the T Tauri star
    S Coronae Australis N using the VLTI
Authors: Vural, J.; Kreplin, A.; Kraus, S.; Weigelt, G.; Driebe, T.;
   Benisty, M.; Dugué, M.; Massi, F.; Monin, J. -L.; Vannier, M.
2012A&A...543A.162V    Altcode: 2012arXiv1207.2467V
  <BR /> Aims: We investigate the structure of the circumstellar disk of
  the T Tauri star S CrA N and test whether the observations agree with
  the standard picture proposed for Herbig Ae stars. <BR /> Methods:
  Our observations were carried out with the VLTI/AMBER instrument
  in the H and K bands with the low spectral resolution mode. For the
  interpretation of our near-infrared AMBER and archival mid-infrared
  MIDI visibilities, we employed both geometric and temperature-gradient
  models. <BR /> Results: To characterize the disk size, we first fitted
  geometric models consisting of a stellar point source, a ring-shaped
  disk, and a halo structure to the visibilities. In the H and K bands,
  we measured ring-fit radii of 0.73 ± 0.03 mas (corresponding to 0.095
  ± 0.018 AU for a distance of 130 pc) and 0.85 ± 0.07 mas (0.111
  ± 0.026 AU), respectively. This K-band radius is approximately
  two times larger than the dust sublimation radius of ≈0.05 AU
  expected for a dust sublimation temperature of 1500 K and gray dust
  opacities, but approximately agrees with the prediction of models
  including backwarming (namely a radius of ≈0.12 AU). The derived
  temperature-gradient models suggest that the disk is approximately
  face-on consisting of two disk components with a gap between star and
  disk. The inner disk component has a temperature close to the dust
  sublimation temperature and a quite narrow intensity distribution with
  a radial extension from 0.11 AU to 0.14 AU. <BR /> Conclusions: Both
  our geometric and temperature-gradient models suggest that the T Tauri
  star S CrA N is surrounded by a circumstellar disk that is truncated
  at an inner radius of ≈ 0.11 AU. The narrow extension of the inner
  temperature-gradient disk component implies that there is a hot inner
  rim. <P />Based on observations made with ESO telescopes at the La Silla
  Paranal Observatory under program IDs 081.C-0272(A), 083.C-0236(C).

---------------------------------------------------------
Title: The 2012 interferometric imaging beauty contest
Authors: Baron, Fabien; Cotton, William D.; Lawson, Peter R.; Ridgway,
   Steve T.; Aarnio, Alicia; Monnier, John D.; Hofmann, Karl-Heinz;
   Schertl, Dieter; Weigelt, Gerd; Thiébaut, Eric; Soulez, Férréol;
   Mary, David; Millour, Florentin; Vannier, Martin; Young, John; Elias,
   Nicholas M.; Schmitt, Henrique R.; Rengaswamy, Sridharan
2012SPIE.8445E..1EB    Altcode: 2012arXiv1207.7141B
  We present the results of the fifth Interferometric Imaging Beauty
  Contest. The contest consists in blind imaging of test data sets derived
  from model sources and distributed in the OIFITS format. Two scenarios
  of imaging with CHARA/MIRC-6T were offered for reconstruction: imaging
  a T Tauri disc and imaging a spotted red supergiant. There were eight
  different teams competing this time: Monnier with the software package
  MACIM; Hofmann, Schertl and Weigelt with IRS; Thiebaut and Soulez with
  MiRA ; Young with BSMEM; Mary and Vannier with MIROIRS; Millour and
  Vannier with independent BSMEM and MiRA entries; Rengaswamy with an
  original method; and Elias with the radio-astronomy package CASA. The
  contest model images, the data delivered to the contestants and the
  rules are described as well as the results of the image reconstruction
  obtained by each method. These results are discussed as well as the
  strengths and limitations of each algorithm.

---------------------------------------------------------
Title: AMBER and CRIRES observations of the binary sgB[e] star HD
327083: evidence of a gaseous disc traced by CO bandhead emission
Authors: Wheelwright, H. E.; de Wit, W. J.; Weigelt, G.; Oudmaijer,
   R. D.; Ilee, J. D.
2012A&A...543A..77W    Altcode: 2012arXiv1206.6252W
  Context. <ASTROBJ>HD 327083</ASTROBJ> is a supergiant B[e] star that
  forms a binary system with an orbital semi-major axis of approximately
  1.7 AU. <BR /> Aims: Our previous observations using the VLTI
  and AMBER in the medium resolution K-band mode spatially resolved
  the environment of HD 327083. The continuum visibilities obtained
  indicate the presence of a circumbinary disc. CO bandhead emission
  was also observed. However, due to the limited spectral resolution
  of the previous observations, the kinematic structure of the emitting
  material could not be constrained. In this paper, we address this and
  probe the source of the CO emission with high spectral resolution
  and spatial precision. <BR /> Methods: To determine the properties
  and kinematics of its CO emitting region, we have observed HD 327083
  with high spectral resolution (25 and 6 km s<SUP>-1</SUP>) using AMBER
  and CRIRES. The observations are compared to kinematical models to
  constrain the source of the emission. <BR /> Results: The multi-epoch
  AMBER spectra obtained over 5 months contain no evidence that the CO
  1st overtone emission of HD 327083 is variable. This indicates that the
  structure of the emitting region is not strongly dependent on orbital
  phase. It is shown that the CO bandhead emission can be reproduced using
  a model of a Keplerian disc with an inclination and size consistent
  with our previous VLTI observations. The model is compared to AMBER
  differential phase measurements, which have a precision as high as ~30
  μas. A differential phase signal corresponding to 0.15 mas (~5σ)
  is seen over the bandhead emission, which is in excellent agreement
  with the model that fits the CRIRES observations. In comparison, a
  model of an equatorial outflow, as envisaged in the standard sgB[e]
  scenario, does not reproduce the observations well. <BR /> Conclusions:
  We present a direct test of the circumstellar kinematics of the binary
  sgB[e] star HD 327083 using both spatial and spectral information. The
  excellent agreement between the disc model and observations in the
  spatial and spectral domains is compelling evidence that the CO bandhead
  emission of HD 327083 originates in a circumbinary Keplerian disc. In
  contrast, the model of an equatorial outflow cannot reproduce the
  observations well. This suggests that the standard sgB[e] scenario is
  not applicable to HD 327083, which supports the hypothesis that the B[e]
  behaviour of HD 327083 is due to binarity. <P />Based on data obtained
  at the European Southern Observatory, Paranal, Chile via the observing
  programmes 385.D-0513 and 087.D-0889.

---------------------------------------------------------
Title: Perspective of imaging in the mid-infrared at the Very Large
    Telescope Interferometer
Authors: Lopez, B.; Lagarde, S.; Antonelli, P.; Jaffe, W.; Petrov, R.;
   Venema, L.; Robbe-Dubois, Sylvie; Bettonvil, F.; Berio, P.; Navarro,
   R.; Graser, U.; Beckman, U.; Weigelt, G.; Vakili, F.; Henning, T.;
   Gonzales, J. -C.; Wolf, S.; Bailet, C.; Behrend, J.; Bresson, Y.;
   Chesneau, O.; Clausse, J. M.; Connot, C.; Dugué, M.; Fantei, Y.;
   Elswijk, E.; Hanenburg, H.; Hofmann, K. H.; Heininger, M.; ter Horst,
   R.; Hron, J.; Kragt, J.; Tromp, N.; Agocs, T.; Kroes, G.; Laun,
   W.; Leinert, Ch.; Lehmitz, M.; Matter, A.; Menut, J. L.; Millour,
   F.; Neumann, U.; Nussbaum, E.; Ottogalli, S.; Pott, J. -U.; Rigal,
   F.; Roussel, A.; Schertl, D.; Vannier, M.; Wagner, K.; Mellein, M.;
   Kroener, T.; Mauclert, N.; Girard, P.; Lagarde, G. M.; Mosoni, L.;
   Jasko, A.; Glindemann, A.; Phan Duc, T.; Finger, G.; Ives, D.; Jakob,
   G.; Percheron, I.; Avila, G.; Palsa, R.; Pozna, E.; Lizon, J. L.;
   Lucuix, Ch.; Menardi, S.; Haguenauer, P.; Gitton, P.; Morel, S.;
   Gonté, F.; Jolley, P.; Rupprecht, G.; Bourget, P.; Delplancke, F.;
   Mehrgan, L.; Stegmeier, J.; van Belle, G.; Richichi, A.; Moorwood, A.
2012SPIE.8445E..0RL    Altcode:
  MATISSE is a mid-infrared spectro-interferometer combining the
  beams of up to four Unit Telescopes or Auxiliary Telescopes of the
  Very Large Telescope Interferometer (VLTI) of the European Southern
  Observatory. MATISSE will constitute an evolution of the two-beam
  interferometric instrument MIDI. New characteristics present in MATISSE
  will give access to the mapping and the distribution of the material,
  the gas and essentially the dust, in the circumstellar environments by
  using the mid-infrared band coverage extended to L, M and N spectral
  bands. The four beam combination of MATISSE provides an efficient
  uv-coverage: 6 visibility points are measured in one set and 4 closure
  phase relations which can provide aperture synthesis images in the
  mid-infrared spectral regime. We give an overview of the instrument
  including the expected performances and a view of the Science Case. We
  present how the instrument would be operated. The project involves the
  collaborations of several agencies and institutes: the Observatoire de
  la Côte d’Azur of Nice and the INSU-CNRS in Paris, the Max Planck
  Institut für Astronomie of Heidelberg; the University of Leiden and
  the NOVA-ASTRON Institute of Dwingeloo, the Max Planck Institut für
  Radioastronomie of Bonn, the Institut für Theoretische Physik und
  Astrophysik of Kiel, the Vienna University and the Konkoly Observatory.

---------------------------------------------------------
Title: The complexity of parsec-scaled dusty tori in AGN
Authors: Tristram, K. R. W.; Schartmann, M.; Burtscher, L.;
   Meisenheimer, K.; Jaffe, W.; Kishimoto, M.; Hönig, S. F.; Weigelt, G.
2012JPhCS.372a2035T    Altcode: 2012arXiv1204.2823T
  Warm gas and dust surround the innermost regions of active galactic
  nuclei (AGN). They provide the material for accretion onto the
  super-massive black hole and they are held responsible for the
  orientation-dependent obscuration of the central engine. The AGN-heated
  dust distributions turn out to be very compact with sizes on scales
  of about a parsec in the mid-infrared. Only infrared interferometry
  currently provides the necessary angular resolution to directly study
  the physical properties of this dust. Size estimates for the dust
  distributions derived from interferometric observations can be used to
  construct a size-luminosity relation for the dust distributions. The
  large scatter about this relation suggests significant differences
  between the dust tori in the individual galaxies, even for nuclei of
  the same class of objects and with similar luminosities. This questions
  the simple picture of the same dusty doughnut in all AGN. The Circinus
  galaxy is the closest Seyfert 2 galaxy. Because its mid-infrared
  emission is well resolved interferometrically, it is a prime target for
  detailed studies of its nuclear dust distribution. An extensive new
  interferometric data set was obtained for this galaxy. It shows that
  the dust emission comes from a very dense, disk-like structure which is
  surrounded by a geometrically thick, similarly warm dust distribution
  as well as significant amounts of warm dust within the ionisation cone.

---------------------------------------------------------
Title: Probing the innermost dusty structure in AGN with mid-IR and
    near-IR interferometers
Authors: Kishimoto, M.; Hönig, S. F.; Antonucci, R.; Barvainis, R.;
   Kotani, T.; Millour, F.; Tristram, K. R. W.; Weigelt, G.
2012JPhCS.372a2033K    Altcode: 2012arXiv1204.4871K
  With mid-IR and near-IR long-baseline interferometers, we are now
  mapping the radial distribution of the dusty accreting material in
  AGNs at sub-pc scales. We currently focus on Type 1 AGNs, where the
  innermost region is unobscured and its intrinsic structure can be
  studied directly. As a first systematic study of Type 1s, we obtained
  mid-/near-IR data for small samples over ~3-4 orders of magnitudes
  in UV luminosity L of the central engine. Here we effectively trace
  the structure by observing dust grains that are radiatively heated
  by the central engine. Consistent with a naive expectation for such
  dust grains, the dust sublimation radius R<SUB>in</SUB> is in fact
  empirically known to be scaling with L<SUP>1/2</SUP> from the near-IR
  reverberation measurements, and this is also supported by our near-IR
  interferometry. Utilizing this empirical relationship, we normalize the
  radial extent by R<SUB>in</SUB> and eliminate the simple L<SUP>1/2</SUP>
  scaling for a direct comparison over the samples. We then find that, in
  the mid-IR, the overall size in units of R<SUB>in</SUB> seems to become
  more compact in higher luminosity sources. More specifically, the mid-IR
  brightness distribution is rather well described by a power-law, and
  this power-law becomes steeper in higher luminosity objects. The near-IR
  flux does not seem to be a simple inward extrapolation of the mid-IR
  power-law component toward shorter wavelengths, but it rather comes from
  a little distinct brightness concentration at the inner rim region of
  the dust distribution. Its structure is not well constrained yet, but
  there is tentative evidence that this inner near-IR-emitting structure
  has a steeper radial distribution in jet-launching objects. All these
  should be scrutinized with further observations.

---------------------------------------------------------
Title: VLTI/AMBER differential interferometry of the broad-line
    region of the quasar 3C273
Authors: Petrov, Romain G.; Millour, Florentin; Lagarde, Stéphane;
   Vannier, Martin; Rakshit, Suvendu; Marconi, Alessandro; weigelt, Gerd
2012SPIE.8445E..0WP    Altcode: 2014arXiv1410.3108P
  Unveiling the structure of the Broad Line Region (BLR) of AGNs is
  critical to understand the quasar phenomenon. Resolving a few BLRs by
  optical interferometry will bring decisive information to confront,
  complement and calibrate the reverberation mapping technique, seed
  of the mass-luminosity relation in quasars. BLRs are much smaller
  than the angular resolution of the VLT and Keck interferometers
  and they can be resolved only by differential interferometry very
  accurate measurements of differential visibility and phase. The latest
  yields the photocenter variation with λ, and constrains the size,
  position and velocity law of various regions of the BLR. AGNs are
  below the magnitude limit for spectrally resolved interferometry set
  by currently available fringe trackers. A new “blind” observation
  method and a data processing based on the accumulation of 2D Fourier
  power and cross spectra permitted us the first spectrally resolved
  interferometric observation of a BLR, on the K=10 quasar 3C273. A
  careful bias analysis is still in progress, but we report strong
  evidence that, as the baseline increases, the differential visibility
  decreases in the Pa<SUB>α</SUB> line. Combined with a differential
  phase certainly smaller than 3°, this yields an angular radius of
  the BLR larger than 0.4 milliarcseconds, or 1000 light days at the
  distance of 3C273, much larger than the reverberation mapping radius
  of 300 light days. Explaining the coexistence of these two different
  scales, and possibly structures and mechanisms, implies very new
  insights about the BLR of 3C273.

---------------------------------------------------------
Title: On the Nature of the Herbig B[e] Star Binary System V921
Scorpii: Geometry and Kinematics of the Circumprimary Disk on
    Sub-AU Scales
Authors: Kraus, Stefan; Calvet, Nuria; Hartmann, Lee; Hofmann,
   Karl-Heinz; Kreplin, Alexander; Monnier, John D.; Weigelt, Gerd
2012ApJ...752...11K    Altcode: 2012arXiv1204.1969K
  V921 Scorpii is a close binary system (separation 0farcs025) showing
  the B[e]-phenomenon. The system is surrounded by an enigmatic
  bipolar nebula, which might have been shaped by episodic mass-loss
  events, possibly triggered by dynamical interactions between the
  companion and the circumprimary disk. In this paper, we investigate
  the spatial structure and kinematics of the circumprimary disk,
  with the aim to obtain new insights into the still strongly debated
  evolutionary stage. For this purpose, we combine, for the first time,
  infrared spectro-interferometry (VLTI/AMBER, λ/Δλ = 12, 000) and
  spectro-astrometry (VLT/CRIRES, λ/Δλ = 100, 000), which allows us
  to study the AU-scale distribution of circumstellar gas and dust with
  an unprecedented velocity resolution of 3 km s<SUP>-1</SUP>. Using
  a model-independent photocenter analysis technique, we find that
  the Brγ-line-emitting gas rotates in the same plane as the dust
  disk. We can reproduce the wavelength-differential visibilities and
  phases and the double-peaked line profile using a Keplerian-rotating
  disk model. The derived mass of the central star is 5.4 ± 0.4 M
  <SUB>⊙</SUB> · (d/1150 pc), which is considerably lower than
  expected from the spectral classification, suggesting that V921 Sco
  might be more distant (d ~ 2 kpc) than commonly assumed. Using the
  geometric information provided by our Brγ spectro-interferometric
  data and Paschen, Brackett, and Pfund line decrement measurements in
  61 hydrogen recombination line transitions, we derive the density
  of the line-emitting gas (N<SUB>e</SUB> = (2-6) × 10<SUP>19</SUP>
  m<SUP>-3</SUP>). Given that our measurements can be reproduced with
  a Keplerian velocity field without an outflowing velocity component
  and the non-detection of age-indicating spectroscopic diagnostics,
  our study provides new evidence for the pre-main-sequence nature of
  V921 Sco. <P />Based on observations made with ESO telescopes at the
  Paranal Observatory under the open-time program ID 084.C-0668(A, B)
  and with the Magellan Clay telescope.

---------------------------------------------------------
Title: On the influence of the companion star in Eta Carinae: 2D
    radiative transfer modelling of the ultraviolet and optical spectra
Authors: Groh, Jose H.; Hillier, D. John; Madura, Thomas I.; Weigelt,
   Gerd
2012MNRAS.423.1623G    Altcode: 2012arXiv1204.1963G; 2012MNRAS.tmp.3024G
  We present two-dimensional (2D) radiative transfer modelling of the
  Eta Carinae binary system accounting for the presence of a wind-wind
  collision (WWC) cavity carved in the optically thick wind of the
  primary star. By comparing synthetic line profiles with spectra
  obtained with the Hubble Space Telescope/Space Telescope Imaging
  Spectrograph near apastron, we show that the WWC cavity has a strong
  influence on multi-wavelength diagnostics. This influence is regulated
  by the modification of the optical depth in the continuum and spectral
  lines. We find that Hα, Hβ and Fe II lines are the most affected by
  the WWC cavity, since they form over a large volume of the stellar
  wind of the primary. These spectral lines depend on latitude and
  azimuth since, according to the orientation of the cavity, different
  velocity regions of a spectral line are affected. For 2D models with
  orientation corresponding to orbital inclination angle ? and longitude
  of periastron ?, the blueshifted and zero-velocity regions of the
  line profiles are the most affected by the cavity. These orbital
  orientations are required to simultaneously fit the ultraviolet (UV)
  and optical spectrum of Eta Car around apastron, for a half-opening
  angle of the cavity in the range of 50°-70°. We find that the excess
  P Cygni absorption seen in Hα, Hβ and optical Fe II lines in 1D
  spherical models becomes much weaker or absent in the 2D cavity models,
  in agreement with the observations. The observed UV spectrum of Eta Car
  is strongly dominated by absorption of Fe II lines that are superbly
  reproduced by our 2D models when the presence of the low-density WWC
  cavity is taken into account. Small discrepancies still remain, as the
  P Cygni absorption of Hγ and Hδ is overestimated by our 2D models at
  apastron. We suggest that photoionization of the wind of the primary
  by the hot companion star is responsible for the weak absorption seen
  in these lines. Our CMFGEN models indicate that the primary star has a
  mass-loss rate of 8.5 × 10<SUP>-4</SUP> M<SUB>⊙</SUB> yr<SUP>-1</SUP>
  and wind terminal velocity of 420 km s<SUP>-1</SUP> around the 2000-2001
  apastron. Based on observations made with the Hubble Space Telescope
  Imaging Spectrograph under programmes 9420 and 9973.

---------------------------------------------------------
Title: VLTI/AMBER observations of the Seyfert nucleus of NGC 3783
Authors: Weigelt, G.; Hofmann, K. -H.; Kishimoto, M.; Hönig, S.;
   Schertl, D.; Marconi, A.; Millour, F.; Petrov, R.; Fraix-Burnet, D.;
   Malbet, F.; Tristram, K.; Vannier, M.
2012A&A...541L...9W    Altcode: 2012arXiv1204.6122W
  Context. The putative tori surrounding the accretion disks of active
  galactic nuclei (AGNs) play a fundamental role in the unification
  scheme of AGNs. Infrared long-baseline interferometry allows us
  to study the inner dust distribution in AGNs with unprecedented
  spatial resolution over a wide infrared wavelength range. <BR />
  Aims: Near- and mid-infrared interferometry is used to investigate
  the milli-arcsecond-scale dust distribution in the type 1.5 Seyfert
  nucleus of NGC 3783. <BR /> Methods: We observed NGC 3783 with the
  VLTI/AMBER instrument in the K-band and compared our observations
  with models. <BR /> Results: From the K-band observations, we derive
  a ring-fit torus radius of 0.74 ± 0.23 mas or 0.16 ± 0.05 pc. We
  compare this size with infrared interferometric observations of other
  AGNs and UV/optical-infrared reverberation measurements. For the
  interpretation of our observations, we simultaneously model our near-
  and mid-infrared visibilities and the spectral energy distribution (SED)
  with a temperature/density-gradient model including an additional inner
  hot 1400 K ring component. <P />Based on observations made with ESO
  telescopes at Paranal Observatory under programme IDs 083.B-0212(A)
  and 087.B-0578(A).

---------------------------------------------------------
Title: Near-infrared interferometric observation of the Herbig Ae
    star HD 144432 with VLTI/AMBER
Authors: Chen, L.; Kreplin, A.; Wang, Y.; Weigelt, G.; Hofmann,
   K. -H.; Kraus, S.; Schertl, D.; Lagarde, S.; Natta, A.; Petrov, R.;
   Robbe-Dubois, S.; Tatulli, E.
2012A&A...541A.104C    Altcode: 2012arXiv1203.6240C
  <BR /> Aims: We study the sub-AU-scale circumstellar environment of the
  Herbig Ae star HD 144432 with near-infrared VLTI/AMBER observations
  to investigate the structure of its inner dust disk. <BR /> Methods:
  The interferometric observations were carried out with the AMBER
  instrument in the H and K band. We interpret the measured H- and
  K-band visibilities, the near- and mid-infrared visibilities from the
  literature, and the spectral energy distribution (SED) of HD 144432 by
  using geometric ring models and ring-shaped temperature-gradient disk
  models with power-law temperature distributions. <BR /> Results: We
  derive a K-band ring-fit radius of 0.17 ± 0.01 AU and an H-band radius
  of 0.18 ± 0.01 AU (for a distance of 145 pc). This measured K-band
  radius of ~0.17 AU lies in the range between the dust sublimation radius
  of ~0.13 AU (predicted for a dust sublimation temperature of 1500 K and
  gray dust) and the prediction of models including backwarming (~0.27
  AU). We find that an additional extended halo component is required in
  both the geometric and temperature-gradient modeling. In the best-fit
  temperature-gradient model, the disk consists of two components. The
  inner part of the disk is a thin ring with an inner radius of ~0.21 AU,
  a temperature of ~1600 K, and a ring thickness ~0.02 AU. The outer
  part extends from ~1 AU to ~10 AU with an inner temperature of ~400
  K. We find that the disk is nearly face-on with an inclination angle
  of &lt;28°. <BR /> Conclusions: Our temperature-gradient modeling
  suggests that the near-infrared excess is dominated by emission from
  a narrow, bright rim located at the dust sublimation radius, while an
  extended halo component contributes ~6% to the total flux at 2 μm. The
  mid-infrared model emission has a two-component structure with ~20%
  of the flux originating from the inner ring and the rest from the outer
  parts. This two-component structure is indicative of a disk gap, which
  is possibly caused by the shadow of a puffed-up inner rim. <P />Based
  on observations made with ESO telescopes at Paranal Observatory under
  program ID 083.D-0224(C) and 085.C-0126(A).

---------------------------------------------------------
Title: On the Nature of the Herbig B[e] Star Binary System V921
Scorpii: Discovery of a Close Companion and Relation to the
    Large-scale Bipolar Nebula
Authors: Kraus, Stefan; Calvet, Nuria; Hartmann, Lee; Hofmann,
   Karl-Heinz; Kreplin, Alexander; Monnier, John D.; Weigelt, Gerd
2012ApJ...746L...2K    Altcode: 2012arXiv1201.2420K
  Belonging to the group of B[e] stars, V921 Scorpii is associated with
  a strong infrared excess and permitted and forbidden line emission,
  indicating the presence of low- and high-density circumstellar gas
  and dust. Many aspects of V921 Sco and other B[e] stars still remain
  mysterious, including their evolutionary state and the physical
  conditions resulting in the class-defining characteristics. In
  this Letter, we employ Very Large Telescope Interferometer/AMBER
  spectro-interferometry in order to reconstruct high-resolution
  (λ/2B = 0farcs0013) model-independent interferometric images for
  three wavelength bands around 1.65, 2.0, and 2.3 μm. In our images,
  we discover a close (25.0 ± 0.8 mas, corresponding to ~29 ± 0.9 AU
  at 1.15 kpc) companion around V921 Sco. Between two epochs in 2008 and
  2009, we measure orbital motion of ~7°, implying an orbital period of
  ~35 years (for a circular orbit). Around the primary star, we detect
  a disk-like structure with indications for a radial temperature
  gradient. The polar axis of this AU-scale disk is aligned with the
  arcminute-scale bipolar nebula in which V921 Sco is embedded. Using
  Magellan/IMACS imaging, we detect multi-layered arc-shaped substructure
  in the nebula, suggesting episodic outflow activity from the system
  with a period of ~25 years, roughly matching the estimated orbital
  period of the companion. Our study supports the hypothesis that the
  B[e] phenomenon is related to dynamical interaction in a close binary
  system. <P />Based on observations made with ESO telescopes at the
  Paranal Observatory under the open-time programme ID 081.C-0706(A-D)
  and with the Magellan Baade and Clay telescopes.

---------------------------------------------------------
Title: Resolving the innermost dusty accretion in the brightest Type
    1 AGN with the CHARA array
Authors: Kishimoto, Makoto; Barvainis, Richard; Antonucci, Robert;
   Hoenig, Sebastian; Millour, Florentin; Tristram, Konrad; Weigelt, Gerd
2012noao.prop..187K    Altcode:
  We believe that we have finally started to spatially resolve and
  quantify the innermost dusty structure in AGN tori with long-baseline
  interferometry in the infrared. A major goal here is to see if
  the inner radial distribution of the accreting material is closely
  related to the mode of the central engine: based on the results so
  far, this might indeed be the case. However, our previous and on-going
  observations have a big limitation in the baseline length, with which
  we can only marginally resolve the structure, leaving ambiguity in the
  interpretation of the data. Here we propose to break this limit by
  using the very long baselines offered in the CHARA array. This will
  test our fundamental picture and conclusively measure the innermost
  dusty structure in the brightest Type 1 AGN.

---------------------------------------------------------
Title: Spatially resolving the outer atmosphere of the M giant BK
    Virginis in the CO first overtone lines with VLTI/AMBER
Authors: Ohnaka, K.; Hofmann, K. -H.; Schertl, D.; Weigelt, G.;
   Malbet, F.; Massi, F.; Meilland, A.; Stee, Ph.
2012A&A...537A..53O    Altcode: 2011arXiv1111.5987O
  Context. The mass-loss mechanism in normal K-M giant stars with small
  variability amplitudes is not yet understood, although the majority
  among red giant stars are precisely of this type. <BR /> Aims: We
  present high-spatial and high-spectral resolution observations of the
  M7 giant BK Vir with AMBER at the Very Large Telescope Interferometer
  (VLTI). Our aim is to probe the physical properties of the outer
  atmosphere by spatially resolving the star in the individual CO
  first overtone lines. <BR /> Methods: BK Vir was observed between
  2.26 and 2.31 μm using the 16-32-48 m telescope configuration with
  an angular resolution of 9.8 mas and a spectral resolution of 12
  000. <BR /> Results: The uniform-disk diameters observed in the CO
  first overtone lines are 12 - 31% larger than those measured in
  the continuum. We also detected asymmetry in the CO line-forming
  region, which manifests itself as non-zero/non-π differential and
  closure phases. The data taken 1.5 months apart show possible time
  variation on a spatial scale of 30 mas (corresponding to 3 × stellar
  diameter) at the CO band head. Comparison of the observed data with
  the MARCS photospheric model shows that whereas the observed CO line
  spectrum can be satisfactorily reproduced by the model, the angular
  sizes observed in the CO lines are much larger than predicted by
  the model. Our model with two additional CO layers above the MARCS
  photosphere reproduces the observed spectrum and interferometric data
  in the CO lines simultaneously. This model suggests that the inner
  CO layer at ~1.2 R<SUB>⋆</SUB> is very dense and warm with a CO
  column density of ~10<SUP>22</SUP> cm<SUP>-2</SUP> and temperatures
  of 1900 - 2100 K, while the outer CO layer at 2.5-3.0 R<SUB>⋆</SUB>
  is characterized by column densities of 10<SUP>19</SUP>-10<SUP>20</SUP>
  cm<SUP>-2</SUP> and temperatures of 1500 - 2100 K. <BR /> Conclusions:
  Our AMBER observations of BK Vir have spatially resolved the extended
  molecular outer atmosphere of a normal M giant in the individual CO
  lines for the first time. The temperatures derived for the CO layers are
  higher than, or equal to, the uppermost layer of the MARCS photospheric
  model, implying the operation of some heating mechanism in the outer
  atmosphere. This study also illustrates that testing photospheric models
  only with the spectra of strong molecular or atomic features can be
  misleading. <P />Based on AMBER observations made with the Very Large
  Telescope Interferometer of the European Southern Observatory. Program
  ID: 081.D-0233(A) (AMBER Guaranteed Time Observation).

---------------------------------------------------------
Title: High-Resolution Studies of Eta Carinae's Ejecta and Stellar
    Wind
Authors: Weigelt, Gerd; Kraus, Stefan
2012ASSL..384..129W    Altcode:
  Hubble Space Telescope observations and interferometric measurements
  provide unique insights into the small-scale structure of η Car's
  circumstellar ejecta and its extreme, optically thick, aspherical
  stellar wind. We discuss speckle interferometric imaging and HST
  images of η Car's ejecta in the inner 1 arcsec. We also review
  the first infrared long-baseline spectro-interferometry with high
  spatial resolution of 5 mas and high spectral resolution. Infrared
  interferometry allows us, for the first time, to study the strong
  wavelength dependence of η Car's non-spherical wind structure within
  emission lines.

---------------------------------------------------------
Title: Resolving the circumstellar environment of the B[e] star V921
    Scorpii in the near-infrared with VLTI/AMBER
Authors: Kreplin, A.; Kraus, S.; Hofmann, K. -H.; Schertl, D.; Weigelt,
   G.; Driebe, T.
2012A&A...537A.103K    Altcode:
  <BR /> Aims: We study the AU-scale circumstellar environment of the
  unclassified B[e] star V921 Sco in the near-infrared. For interpreting
  the observations, we employ temperature-gradient disk models. <BR
  /> Methods: Using the near-infrared beam combiner instrument
  AMBER, we recorded spectrally dispersed (spectral resolution R =
  35) interferograms in the H and K bands. To obtain an improved
  calibration of the visibilities, we developed a method that is able to
  equalize the histograms of the optical path difference of target and
  calibrator. We fit temperature-gradient disk models to the visibilities
  and spectral energy distribution (SED) to analyze the circumstellar
  dust geometry. <BR /> Results: We derived a geometric ring-fit radius
  of 2.10 ± 0.16 mas in the K band. If we adopt the distance of 1150
  ± 150 pc reported elsewhere, we obtain a ring-fit radius of 2.4 AU,
  which is slightly smaller than the 3.5 AU dust sublimation radius
  predicted by the size-luminosity relation. The fitted H-band radius of
  1.61 ± 0.23 mas (1.85 AU) is found to be more compact than the K-band
  radius. The best-fit temperature-gradient disk model has an inner disk
  radius of ~1.45 AU, an inner-edge disk temperature T<SUB>0</SUB> = 1533
  K, and a temperature-gradient exponent q = 0.46 suggesting a flared
  disk geometry. <BR /> Conclusions: The distance and luminosity of V921
  Sco are not well known. If we assume a distance of 1150 ± 150 pc, we
  derive a ring-fit radius of ~2.4 AU, which is approximately consistent
  with the computed temperature-gradient disk model with inner and outer
  ring radii of 1.45 and 8.5 AU, respectively. If the inner radius of
  V921 Sco is more compact than the sublimation radius, this compact
  observed size can be explained by emitting material (e.g., a gaseous
  disk) inside the dust sublimation radius, as suggested for several
  other B[e] stars. <P />Based on observations made with ESO telescopes
  at Paranal Observatory under program ID (MPG-VISA GTO): 079.C-0212(A).

---------------------------------------------------------
Title: Mapping the radial structure of AGN tori
Authors: Kishimoto, M.; Hönig, S. F.; Antonucci, R.; Millour, F.;
   Tristram, K. R. W.; Weigelt, G.
2011A&A...536A..78K    Altcode: 2011arXiv1110.4290K
  We present mid-IR interferometric observations of six type 1 AGNs
  at multiple baseline lengths ranging from 27 m to 130 m, reaching
  high angular resolutions up to λ/B ~ 0.02 arcsec. For two of the
  targets, we have simultaneous near-IR interferometric measurements
  as well, taken within a week. We find that all the objects are
  partially resolved at long baselines in these IR wavelengths. The
  multiple-baseline data directly probe the radial distribution of
  the material on sub-pc scales. We show that for our sample, which
  is small but spans over ~2.5 orders of magnitudes in the UV/optical
  luminosity L of the central engine, the radial distribution clearly and
  systematically changes with luminosity. The brightness distribution
  at a given mid-IR wavelength seems to be rather well described by
  a power law, which makes a simple Gaussian or ring size estimation
  quite inadequate. In this case, a half-light radius R<SUB>1/2</SUB>
  can be used as a representative size. We show that the higher
  luminosity objects become more compact in normalized half-light radii
  R<SUB>1/2</SUB>/R<SUB>in</SUB> in the mid-IR, where R<SUB>in</SUB> is
  the dust sublimation radius empirically given by the L<SUP>1/2</SUP>
  fit of the near-IR reverberation radii. This means that, contrary to
  previous studies, the physical mid-IR emission size (e.g. in pc) is
  not proportional to L<SUP>1/2</SUP>, but increases with L much more
  slowly. With our current datasets, we find that R<SUB>1/2</SUB> ∝
  L<SUP>0.21 ± 0.05</SUP> at 8.5 μm, and R<SUB>1/2</SUB> nearly constant
  at 13 μm. The derived size information also seems to correlate with
  the properties of the total flux spectrum, in particular the smaller
  R<SUB>1/2</SUB>/R<SUB>in</SUB> objects having bluer mid-IR spectral
  shape. We use a power-law temperature/density gradient model as a
  reference, and infer that the radial surface density distribution
  of the heated dust grains at a radius r changes from a steep
  ~r<SUP>-1</SUP> structure in high luminosity objects to a shallower
  ~r<SUP>0</SUP> structure in those of lower luminosity. The inward
  dust temperature distribution does not seem to smoothly reach the
  sublimation temperature - on the innermost scale of ~R<SUB>in</SUB>,
  a relatively low temperature core seems to co-exist with a slightly
  distinct brightness concentration emitting roughly at the sublimation
  temperature. <P />Appendices are available in electronic form at <A
  href="http://www.aanda.org">http://www.aanda.org</A>

---------------------------------------------------------
Title: Near-Infrared Imaging Polarimetry of Bipolar Proto-planetary
    Nebulae
Authors: Murakawa, K.; Driebe, T.; Hofmann, K.; Meixner, M.; Ohnaka,
   K.; Oya, S.; Schertl, D.; Weigelt, G.; Ueta, T.
2011ASPC..449..327M    Altcode:
  We present results of radiative transfer modeling of two bipolar
  proto-planetary nebulae based on the data archives of HST/NICMOS
  imaging polarimetry. We constrained the model parameters by fitting the
  spectral energy distributions, the intensity and polarization images,
  and assumed multiple grain models in different geometry space. From
  our sample, we found that (1) model geometries with a disk reproduce
  the bipolar appearance with a narrow waist, (2) grains in the bipolar
  lobes have submicron sizes, but ∼10μm or larger sizes are expected
  in the equatorial region, and (3) the grain sizes in the disk correlate
  to the disk geometry, but not the stellar temperature, luminosity,
  or lobe shape. Our results agree with the disk/reservoir hypothesis
  in PN shaping.

---------------------------------------------------------
Title: Status report on the Large Binocular Telescope's ARGOS
    ground-layer AO system
Authors: Hart, M.; Rabien, S.; Busoni, L.; Barl, L.; Beckmann, U.;
   Bonaglia, M.; Boose, Y.; Borelli, J. L.; Bluemchen, T.; Carbonaro,
   L.; Connot, C.; Deysenroth, M.; Davies, R.; Durney, O.; Elberich,
   M.; Ertl, T.; Esposito, S.; Gaessler, W.; Gasho, V.; Gemperlein,
   H.; Hubbard, P.; Kanneganti, S.; Kulas, M.; Newman, K.; Noenickx,
   J.; Orban de Xivry, G.; Peter, D.; Quirrenbach, A.; Rademacher, M.;
   Schwab, C.; Storm, J.; Vaitheeswaran, V.; Weigelt, G.; Ziegleder, J.
2011SPIE.8149E..0JH    Altcode: 2011SPIE.8149E..18H
  ARGOS, the laser-guided adaptive optics system for the Large Binocular
  Telescope (LBT), is now under construction at the telescope. By
  correcting atmospheric turbulence close to the telescope, the system is
  designed to deliver high resolution near infrared images over a field
  of 4 arc minute diameter. Each side of the LBT is being equipped with
  three Rayleigh laser guide stars derived from six 18 W pulsed green
  lasers and projected into two triangular constellations matching the
  size of the corrected field. The returning light is to be detected by
  wavefront sensors that are range gated within the seeing-limited depth
  of focus of the telescope. Wavefront correction will be introduced by
  the telescope's deformable secondary mirrors driven on the basis of
  the average wavefront errors computed from the respective guide star
  constellation. Measured atmospheric turbulence profiles from the site
  lead us to expect that by compensating the ground-layer turbulence,
  ARGOS will deliver median image quality of about 0.2 arc sec across
  the JHK bands. This will be exploited by a pair of multi-object
  near-IR spectrographs, LUCIFER1 and LUCIFER2, with 4 arc minute field
  already operating on the telescope. In future, ARGOS will also feed two
  interferometric imaging instruments, the LBT Interferometer operating
  in the thermal infrared, and LINC-NIRVANA, operating at visible and
  near infrared wavelengths. Together, these instruments will offer very
  broad spectral coverage at the diffraction limit of the LBT's combined
  aperture, 23 m in size.

---------------------------------------------------------
Title: ARGOS - the Laser Star Adaptive Optics for LBT
Authors: Rabien, S.; Barl, L.; Beckmann, U.; Blümchen, T.; Bonaglia,
   M.; Borelli, J. L.; Brynnel, J.; Busoni, L.; Carbonaro, L.; Conot,
   C.; Davies, R.; Deysenroth, M.; Durney, O.; Elberich, M.; Esposito,
   S.; Gasho, V.; Gässler, W.; Gemperlein, H.; Genzel, R.; Green,
   R.; Haug, M.; Lloyd Hart, M.; Hubbard, P.; Kanneganti, S.; Kulas,
   M.; Noenickx, J.; Peter, D.; Quirrenbach, A.; Rademacher, M.; Rix,
   H. W.; Salinari, P.; Schwab, C.; Storm, J.; Strüder, L.; Thiel, M.;
   Weigelt, G.; Ziegleder, J.; Orban de Xivry, G.
2011aoel.confE..51R    Altcode:
  We will present the design and status of ARGOS - the Laser Guide
  Star adaptive optics facility for the Large Binocular Telescope. By
  projecting a constellation of multiple laser guide stars above each of
  the 8.4m primary mirrors of the LBT, ARGOS in its ground layer mode
  will enable a wide field adaptive optics correction for multi object
  spectroscopy. ARGOS implements high power pulsed green lasers and makes
  use of Rayleigh scattering for the guide star creation. The geometric
  relations of this setup in guide star height vs. primary diameter
  are quite comparable to an ELT with sodium guide stars. The use of
  LBT's adaptive secondary mirror, gated wavefront sensors, a prime
  focus calibration system and the laser constellation shows several
  aspects that may be used as pathfinding technology for the planned
  ELTs. In already planned upgrade steps with a hybrid Sodium-Rayleigh
  combination ARGOS will enable MCAO and MOAO implementations at LBT
  allowing unique astronomical observations.

---------------------------------------------------------
Title: The Large Binocular Telescope's ARGOS ground-layer AO system
Authors: Hart, M.; Rabien, S.; Busoni, L.; Barl, L.; Bechmann, U.;
   Bonaglia, M.; Boose, Y.; Borelli, J.; Bluemchen, T.; Carbonaro,
   L.; Connot, C.; Deysenroth, M.; Davies, R.; Durney, O.; Elberich,
   M.; Ertl, T.; Esposito, S.; Gaessler, W.; Gasho, V.; Gemperlein,
   H.; Hubbard, P.; Kanneganti, S.; Kulas, M.; Newman, K.; Noenickx,
   J.; Orban de Xivry, G.; Qirrenback, A.; Rademacher, M.; Schwab, C.;
   Storm, J.; Vaitheeswaran, V.; Weigelt, G.; Ziegleder, J.
2011amos.confE..59H    Altcode:
  ARGOS, the laser-guided adaptive optics system for the Large Binocular
  Telescope (LBT), is now under construction at the telescope. By
  correcting atmospheric turbulence close to the telescope, the system
  is designed to deliver high resolution near infrared images over a
  field of 4 arc minute diameter. ARGOS is motivated by a successful
  prototype multi-laser guide star system on the 6.5 m MMT telescope,
  results from which are presented in this paper. At the LBT, each side
  of the twin 8.4 m aperture is being equipped with three Rayleigh
  laser guide stars derived from six 18 W pulsed green lasers and
  projected into two triangular constellations matching the size of the
  corrected field. The returning light is to be detected by wavefront
  sensors that are range gated within the seeinglimited depth of focus
  of the telescope. Wavefront correction will be introduced by the
  telescope’s deformable secondary mirrors driven on the basis of
  the average wavefront errors computed from the respective guide star
  constellation. Measured atmospheric turbulence profiles from the site
  lead us to expect that by compensating the ground-layer turbulence,
  ARGOS will deliver median image quality of about 0.2 arc sec in the
  near infrared bands. This will be exploited by a pair of multi-object
  near-IR spectrographs, LUCI1 and LUCI2, each with 4 arc minute field
  already operating on the telescope. In future, ARGOS will also feed two
  interferometric imaging instruments, the LBT Interferometer operating
  in the thermal infrared, and LINC-NIRVANA, operating at visible and
  near infrared wavelengths. Together, these instruments will offer
  very broad spectral coverage at the diffraction limit of the LBT’s
  combined aperture, 23 m in size.

---------------------------------------------------------
Title: Mid-infrared interferometry of the massive young stellar
    object NGC 2264 IRS 1
Authors: Grellmann, R.; Ratzka, T.; Kraus, S.; Linz, H.; Preibisch,
   T.; Weigelt, G.
2011A&A...532A.109G    Altcode: 2011arXiv1107.0928G
  Context. The optically invisible infrared-source NGC 2264 IRS 1
  lying north of the Cone Nebula is thought to be a massive young
  stellar object (~10 M<SUB>⊙</SUB>). Although strong infrared excess
  clearly shows that the central object is surrounded by large amounts of
  circumstellar material, no information about the spatial distribution
  of this circumstellar material has been available until now. <BR />
  Aims: We used the ESO Very Large Telescope Interferometer to perform
  long-baseline interferometric observations of NGC 2264 IRS 1 in
  the mid-infrared regime. Our observations resolve the circumstellar
  material around NGC 2264 IRS 1, provide the first direct measurement
  of the angular size of the mid-infrared emission, and yield direct
  constraints on the spatial distribution of the dust. <BR /> Methods:
  We analyze the spectrally dispersed interferometric data taken with
  MIDI at two different position angles and baseline lengths. We use
  different approaches (a geometrical model, a temperature-gradient
  model, and radiative transfer models) to jointly model the observed
  interferometric visibilities and the spectral energy distribution. <BR
  /> Results: The derived visibility values between ~0.02 and ~0.3 show
  that the mid-infrared emission is clearly resolved. The characteristic
  size of the MIR-emission region is ~30-60 AU; this value is typical for
  other YSOs with similar or somewhat lower luminosities. A comparison of
  the sizes for the two position angles shows a significant elongation of
  the dust distribution. Simple spherical envelope models are therefore
  inconsistent with the data. The radiative transfer modeling of our
  data suggests that we observe a geometrically thin and optically thick
  circumstellar disk with a mass of about 0.1 M<SUB>⊙</SUB>. <BR />
  Conclusions: Our modeling indicates that NGC 2264 IRS 1 is surrounded
  by a flat circumstellar disk that has properties similar to disks
  typically found around lower-mass young stellar objects. This result
  supports the assumption that massive young stellar objects form via
  accretion from circumstellar disks. <P />Based on observations collected
  at the European Organisation for Astronomical Research in the Southern
  Hemisphere, Chile, observing programs 076.C-0725(B) and 082.C-899(A).

---------------------------------------------------------
Title: Images of unclassified and supergiant B[e] stars disks with
    interferometry
Authors: Millour, Florentin; Meilland, Anthony; Chesneau, Olivier;
   Fernandes, Marcelo Borges; Groh, Jose H.; Driebe, Thomas; Liermann,
   Adrianne; Weigelt, Gerd
2011IAUS..272..410M    Altcode: 2010arXiv1011.3391M
  B[e] stars are among the most peculiar objects in the sky. This
  spectral type, characterised by allowed and forbidden emission lines,
  and a large infrared excess, does not represent an homogenous class of
  objects, but instead, a mix of stellar bodies seen in all evolutionary
  status. Among them, one can find Herbig stars, planetary nebulae
  central stars, interacting binaries, supermassive stars, and even
  “unclassified” B[e] stars: systems sharing properties of several
  of the above. Interferometry, by resolving the innermost regions of
  these stellar systems, enables us to reveal the true nature of these
  peculiar stars among the peculiar B[e] stars.

---------------------------------------------------------
Title: A low optical depth region in the inner disk of the Herbig
    Ae star HR 5999
Authors: Benisty, M.; Renard, S.; Natta, A.; Berger, J. P.; Massi,
   F.; Malbet, F.; Garcia, P. J. V.; Isella, A.; Mérand, A.; Monin,
   J. L.; Testi, L.; Thiébaut, E.; Vannier, M.; Weigelt, G.
2011A&A...531A..84B    Altcode: 2011arXiv1106.4150B
  Context. Circumstellar disks surrounding young stars are known to be
  the birthplaces of planetary systems, and the innermost astronomical
  unit is of particular interest. Near-infrared interferometric
  studies have revealed a complex morphology for the close environment
  surrounding Herbig Ae stars. <BR /> Aims: We present new long-baseline
  spectro-interferometric observations of the Herbig Ae star, HR 5999,
  obtained in the H and K bands with the AMBER instrument at the VLTI, and
  aim to produce near-infrared images at the sub-AU spatial scale. <BR
  /> Methods: We spatially resolve the circumstellar material and
  reconstruct images in the H and K bands using the MiRA algorithm. In
  addition, we interpret the interferometric observations using models
  that assume that the near-infrared excess is dominated by the emission
  of a circumstellar disk. We compare the images reconstructed from the
  VLTI measurements to images obtained using simulated model data. <BR
  /> Results: The K-band image reveals three main elements: a ring-like
  feature located at ~0.65 AU, a low surface brightness region inside
  0.65 AU, and a central spot. At the maximum angular resolution of our
  observations (B/λ ~ 1.3 mas), the ring is resolved while the central
  spot is only marginally resolved, preventing us from revealing the
  exact morphology of the circumstellar environment. We suggest that
  the ring traces silicate condensation, i.e., an opacity change, in
  a circumstellar disk around HR 5999. We build a model that includes
  a ring at the silicate sublimation radius and an inner disk of low
  surface brightness responsible for a large amount of the near-infrared
  continuum emission. The model successfully fits the SED, visibilities,
  and closure phases in the H and K bands, and provides evidence of a low
  surface brightness region inside the silicate sublimation radius. <BR />
  Conclusions: This study provides milli-arcsecond resolution images of
  the environment of HR 5999 and additional evidence that in Herbig Ae
  stars, there is material in a low surface brightness region, probably
  a low optical depth region, located inside the silicate sublimation
  radius and of unknown nature. The possibility that the formation of
  such a region in a thick disk is related to disk evolution should
  be investigated. <P />Based on observations collected at the VLTI
  (ESO Paranal, Chile) with programs 080.C-0056, 083.C-0298, 083.C-0144,
  083.C-0334, 083.C-0170, 083.C-0857, 083.C-0864, 083.C-0602, 084.C-0590,
  085.C-0769, 085.C-0502.Appendix A is available in electronic form at
  <A href="http://www.aanda.org">http://www.aanda.org</A>

---------------------------------------------------------
Title: Constraining the structure of the planet-forming region in
    the disk of the Herbig Be star HD 100546
Authors: Tatulli, E.; Benisty, M.; Ménard, F.; Varnière, P.;
   Martin-Zaïdi, C.; Thi, W. -F.; Pinte, C.; Massi, F.; Weigelt, G.;
   Hofmann, K. -H.; Petrov, R. G.
2011A&A...531A...1T    Altcode: 2011arXiv1104.0905T
  Context. Studying the physical conditions in circumstellar disks
  is a crucial step toward understanding planet formation and disk
  evolution. Of particular interest is the case of HD 100546, a Herbig Be
  star that presents a gap within the first 13 AU of its protoplanetary
  disk, a gap that may originate in the dynamical interactions of
  a forming planet with its hosting disk. <BR /> Aims: We seek a
  more detailed understanding of the structure of the circumstellar
  environment of HD 100546 and refine our previous disk model that is
  composed of a tenuous inner disk, a gap and a massive outer disk (see
  Benisty et al. 2010, A&amp;A, 511, A75). We also investigate whether
  planetary formation processes can explain the complex density structure
  observed in the disk. <BR /> Methods: We gathered a large amount of
  new interferometric data using the AMBER/VLTI instrument in the H-
  and K-bands to spatially resolve the warm inner disk and constrain
  its structure. Then, combining these measurements with photometric
  observations, we analyze the circumstellar environment of HD 100546
  in the light of a passive disk model based on 3D Monte-Carlo radiative
  transfer. Finally, we use hydrodynamical simulations of gap formation
  by planets to predict the radial surface density profile of the disk
  and test the hypothesis of ongoing planet formation. <BR /> Results:
  The SED (spectral energy distribution) from the UV to the millimeter
  range, and the NIR (near-infrared) interferometric data are adequately
  reproduced by our model. We show that the H- and K-band emissions
  are coming mostly from the inner edge of the internal dust disk,
  located near 0.24 AU from the star, i.e., at the dust sublimation
  radius in our model. At such a short distance, the survival of hot
  (silicate) dust requires the presence of micron-sized grains, heated
  at ~1750 K. We directly measure an inclination of 33° ± 11° and a
  position angle of 140° ± 16° for the inner disk. This is similar
  to the values found for the outer disk (i ≃ 42°, PA ≃ 145°),
  suggesting that both disks may be coplanar. We finally show that 1
  to 8 Jupiter mass planets located at ~8 AU from the star would have
  enough time to create the gap and the required surface density jump of
  three orders of magnitude between the inner and outer disk. However,
  no information on the amount of matter left in the gap is available,
  which precludes us from setting precise limits on the planet mass,
  for now. <P />Based on observations collected at the VLT (ESO Paranal,
  Chile) with programs 082.D-0010(A), 083.C-0298(A,B), 083.D-0224(C),
  083.C-0146(B), 083.C-0144(A,D), 083.C-0236(A), 075.C-0637(A)

---------------------------------------------------------
Title: Imaging “Pinwheel” nebulae with optical long-baseline
    interferometry
Authors: Millour, Florentin; Driebe, Thomas; Groh, Jose H.; Chesneau,
   Olivier; Weigelt, Gerd; Liermann, Adriane; Meilland, Anthony
2011IAUS..272..408M    Altcode: 2010arXiv1011.3394M
  Dusty Wolf-Rayet stars are few but remarkable in terms
  of dust production rates (up to Ṁ = 10<SUP>-6</SUP>
  M<SUB>solar</SUB>/yr). Infrared excesses associated to mass-loss are
  found in the sub-types WC8 and WC9. Few WC9d stars are hosting a
  “pinwheel” nebula, indirect evidence of a companion star around
  the primary. While few other WC9d stars have a dust shell which has
  been barely resolved so far, the available angular resolution offered
  by single telescopes is insufficient to confirm if they also host
  “pinwheel” nebulae or not. In this article, we present the possible
  detection of such nebula around the star WR 118. We discuss about the
  potential of interferometry to image more “pinwheel” nebulae around
  other WC9d stars.

---------------------------------------------------------
Title: Imaging the dynamical atmosphere of the red supergiant
    Betelgeuse in the CO first overtone lines with VLTI/AMBER
Authors: Ohnaka, K.; Weigelt, G.; Millour, F.; Hofmann, K. -H.;
   Driebe, T.; Schertl, D.; Chelli, A.; Massi, F.; Petrov, R.; Stee, Ph.
2011A&A...529A.163O    Altcode: 2011arXiv1104.0958O
  <BR /> Aims: We present one-dimensional aperture synthesis imaging of
  the red supergiant Betelgeuse (α Ori) with VLTI/AMBER. We reconstructed
  for the first time one-dimensional images in the individual CO first
  overtone lines. Our aim is to probe the dynamics of the inhomogeneous
  atmosphere and its time variation. <BR /> Methods: Betelgeuse was
  observed between 2.28 and 2.31 μm with VLTI/AMBER using the 16-32-48
  m telescope configuration with a spectral resolution up to 12 000 and
  an angular resolution of 9.8 mas. The good nearly one-dimensional uv
  coverage allows us to reconstruct one-dimensional projection images
  (i.e., one-dimensional projections of the object's two-dimensional
  intensity distributions). <BR /> Results: The reconstructed
  one-dimensional projection images reveal that the star appears
  differently in the blue wing, line center, and red wing of the
  individual CO lines. The one-dimensional projection images in the
  blue wing and line center show a pronounced, asymmetrically extended
  component up to ~1.3 R<SUB>⋆</SUB>, while those in the red wing do
  not show such a component. The observed one-dimensional projection
  images in the lines can be reasonably explained by a model in which the
  CO gas within a region more than half as large as the stellar size is
  moving slightly outward with 0-5 km s<SUP>-1</SUP>, while the gas in
  the remaining region is infalling fast with 20-30 km s<SUP>-1</SUP>. A
  comparison between the CO line AMBER data taken in 2008 and 2009 shows
  a significant time variation in the dynamics of the CO line-forming
  region in the photosphere and the outer atmosphere. In contrast to
  the line data, the reconstructed one-dimensional projection images
  in the continuum show only a slight deviation from a uniform disk
  or limb-darkened disk. We derive a uniform-disk diameter of 42.05
  ± 0.05 mas and a power-law-type limb-darkened disk diameter of
  42.49 ± 0.06 mas and a limb-darkening parameter of (9.7 ± 0.5) ×
  10<SUP>-2</SUP>. This latter angular diameter leads to an effective
  temperature of 3690 ± 54 K for the continuum-forming layer. These
  diameters confirm that the near-IR size of Betelgeuse was nearly
  constant over the last 18 years, in marked contrast to the recently
  reported noticeable decrease in the mid-IR size. The continuum data
  taken in 2008 and 2009 reveal no or only marginal time variations,
  much smaller than the maximum variation predicted by the current
  three-dimensional convection simulations. <BR /> Conclusions:
  Our two-epoch AMBER observations show that the outer atmosphere
  extending to ~1.3-1.4 R<SUB>⋆</SUB> is asymmetric and its dynamics
  is dominated by vigorous, inhomogeneous large-scale motions, whose
  overall nature changes drastically within one year. This is likely
  linked to the wind-driving mechanism in red supergiants. <P />Based on
  AMBER observations made with the Very Large Telescope Interferometer
  of the European Southern Observatory. Program ID: 082.D-0280 (AMBER
  Guaranteed Time Observation).Appendices are available in electronic
  form at <A href="http://www.aanda.org">http://www.aanda.org</A>

---------------------------------------------------------
Title: Zooming in on high-mass star formation with combined VLTI
    near-infrared interferometry and ATCA millimeter interferometry
Authors: Kraus, Stefan; Menten, Karl; Schilke, Peter; Wyrowski,
   Friedrich; Bergin, Edwin; Wienen, Marion; Weigelt, Gerd
2011atnf.prop.4135K    Altcode:
  In spite of its importance for astrophysics, the process through
  which massive stars form is only poorly understood. In a recent study,
  we detected with VLTI near-infrared interferometry a compact (9 AU)
  disk-like structure around the high-mass protostar IRAS13481-6124
  (Kraus et al. 2010, Nature 466, 339). Perpendicular to the disk
  plane, we detected two bow shocks in Spitzer/IRAC images, suggesting
  the presence of a collimated bipolar outflow. In order to study the
  inner-most outflow regions and to measure the precise outflow direction
  and collimation angle, we propose ATCA interferometric observations
  in SiO, HCN, HCO+ line and 3mm continuum emission. In our initial
  2010APRS observations, we successfully resolved IRAS13481-6124
  with ATCA baselines up to 1.2km and at wavelengths down to 3mm,
  although a large fraction of the observing time was lost due to poor
  atmospheric conditions. The proposed follow-up observations will
  result in an uv-coverage suitable for direct imaging. For the physical
  interpretation, we will simultaneously fit the SED, and VLTI&amp;ATCA
  visibilities using 2-D radiative transfer modeling, allowing us to
  solve many of the degeneracies which are inherent to single-wavelength
  investigations and to characterize the global disk structure.

---------------------------------------------------------
Title: VLTI/AMBER spectro-interferometry of the Herbig Be star MWC
    297 with spectral resolution 12 000
Authors: Weigelt, G.; Grinin, V. P.; Groh, J. H.; Hofmann, K. -H.;
   Kraus, S.; Miroshnichenko, A. S.; Schertl, D.; Tambovtseva, L. V.;
   Benisty, M.; Driebe, T.; Lagarde, S.; Malbet, F.; Meilland, A.;
   Petrov, R.; Tatulli, E.
2011A&A...527A.103W    Altcode: 2011arXiv1101.3695W
  Context. Circumstellar disks and outflows play a fundamental role
  in star formation. Infrared spectro-interferometry allows the inner
  accretion-ejection region to be resolved. <BR /> Aims: We study the disk
  and Brγ-emitting region of <ASTROBJ>MWC 297</ASTROBJ> with high spatial
  and spectral resolution and compare our observations with disk-wind
  models. <BR /> Methods: We measured interferometric visibilities,
  wavelength-differential phases, and closure phases of MWC 297 with a
  spectral resolution of 12 000. To interpret our MWC 297 observations,
  we employed disk-wind models. <BR /> Results: The measured continuum
  visibilities confirm previous results that the continuum-emitting region
  of MWC 297 is remarkably compact. We derive a continuum ring-fit radius
  of ~2.2 mas (~0.56 AU at a distance of 250 pc), which is ~5.4 times
  smaller than the 3 AU dust sublimation radius expected for silicate
  grains (in the absence of radiation-shielding material). The strongly
  wavelength-dependent and asymmetric Brγ-emitting region is more
  extended (~2.7 times) than the continuum-emitting region. At the center
  of the Brγ line, we derive a Gaussian fit radius of ~6.3 mas HWHM (~1.6
  AU). To interpret the observations, we employ a magneto-centrifugally
  driven disk-wind model consisting of an accretion disk, which emits
  the observed continuum radiation, and a disk wind, which emits the Brγ
  line. The calculated wavelength-dependent model intensity distributions
  and Brγ line profiles are compared with the observations (i.e., K-band
  spectrum, visibilities, differential phases, and closure phases). The
  closest fitting model predicts a continuum-emitting disk with an inner
  radius of ~0.3 AU and a disk wind ejection region with an inner radius
  of ~ 0.5 AU (~17.5 stellar radii). We obtain a disk-wind half-opening
  angle (the angle between the rotation axis and the innermost streamline
  of the disk wind) of ~80°, which is larger than in T Tau models,
  and a disk inclination angle of ~20° (i.e., almost pole-on). <BR />
  Conclusions: Our observations with a spectral resolution of 12 000
  allow us to study the AU-scale environment of MWC 297 in ~10 different
  spectral channels across the Brγ emission line. We show that the K-band
  flux, visibilities, and remarkably strong phases can be explained by
  the employed magneto-centrifugally driven disk wind model. <P />Based
  on observations made with ESO telescopes at Paranal Observatory under
  programme ID 081.D-0230(A).

---------------------------------------------------------
Title: The innermost dusty structure in active galactic nuclei as
    probed by the Keck interferometer
Authors: Kishimoto, M.; Hönig, S. F.; Antonucci, R.; Barvainis, R.;
   Kotani, T.; Tristram, K. R. W.; Weigelt, G.; Levin, K.
2011A&A...527A.121K    Altcode: 2010arXiv1012.5359K
  We are now exploring the inner region of type 1 active galactic nuclei
  (AGNs) with the Keck interferometer in the near-infrared. Adding to
  the four targets previously studied, we report measurements of the
  K-band (2.2 μm) visibilities for four more targets, namely AKN120,
  IC 4329A, Mrk6, and the radio-loud QSO 3C 273 at z = 0.158. The
  observed visibilities are quite high for all the targets, which
  we interpret as an indication of the partial resolution of the dust
  sublimation region. The effective ring radii derived from the observed
  visibilities scale approximately with L<SUP>1/2</SUP>, where L is
  the AGN luminosity. Comparing the radii with those from independent
  optical-infrared reverberation measurements, these data support our
  previous claim that the interferometric ring radius is either roughly
  equal to or slightly larger than the reverberation radius. We interpret
  the ratio of these two radii for a given L as an approximate probe
  of the radial distribution of the inner accreting material. We show
  tentative evidence that this inner radial structure might be closely
  related to the radio-loudness of the central engine. Finally, we
  re-observed the brightest Seyfert 1 galaxy NGC 4151. Its marginally
  higher visibility at a shorter projected baseline, compared to our
  previous measurements obtained one year before, further supports
  the partial resolution of the inner structure. We did not detect any
  significant change in the implied emission size when the K-band flux
  was brightened by a factor of 1.5 over a time interval of one year.

---------------------------------------------------------
Title: Testing 3D SPH Models Of Eta Carina's Winds By HST, RXTE,
    VLT And VLTI Observations
Authors: Gull, Theodore R.; Madura, T.; Groh, J.; Weigelt, G.;
   Corcoran, M.; Owocki, S.; Russell, C.; Okazaki, A.
2011AAS...21733817G    Altcode: 2011BAAS...4333817G
  Observations of Eta Carina have been combined with three-dimensional
  smoothed-particle hydrodynamic (3DSPH) simulations providing
  considerable insight on this &gt;100 Mo binary that may become
  near-term supernovae, a GRB, or a staid WR binary. Understanding how
  this system loses 1e-3 Mo/yr, 500 km/s will provide new understanding
  of massive stellar evolution, including the first progenitors of GRBs,
  supernovae and pseudo-supernovae. <P />The 3DSPH models extend to 100
  semi-major axes ( 2000 AU, &lt;2” at 2300 pc). At these scales,
  HST/STIS resolves [Fe III] and [Fe II] spatial-velocity structures
  that change with orbital phase and position angle. Radiative transfer
  models combining temperature and density with EtaCar B's FUV lead to
  synthetic spectroimages of extended wind-wind interfaces. Model X-ray
  light curves provide orbital inclination and location of periastron
  but cannot determine sky PA. Synthetic spectro-images generated for
  a range of possible binary orientations lead to best-fit when the
  orbital axis is closely aligned with the Homunculus axis of symmetry,
  and periastron with EtaCar B on the far side of EtaCar A. VLTI/AMBER
  measures of the continuum, extended hydrogen and helium structures
  of EtaCar A demonstrate that, across periastron, EtaCar B penetrates
  the primary extended atmosphere. Spectroimagery observations of He
  10830 by VLT/CRIRES show blue-shifted emission extending to -1500
  km/s, consistent with wind-wind structures driven by the companion's
  fast wind. <P />The 2009.0 RXTE X-ray recovery and return of the
  spectroscopic high state was much sooner than the 1998.0 and 2003.5
  recoveries. What has changed? Suggestions range from a drop in the
  primary wind, changes in the secondary wind or line-of-sight shifting
  of the wind-wind boundary. We will discuss potential observational
  tests based upon predictions by 3DSPH models.

---------------------------------------------------------
Title: Magnetic Braking of the Main Component of θ^{1} Ori C
Authors: Balega, Yu. Yu.; Leushin, V. V.; Weigelt, G.
2011mast.conf..179B    Altcode:
  θ^{1} Ori C is the nearest massive O star at the early phase of
  the evolution. Interferometric study of the star at the 6-m BTA
  telescope showed that it is a binary system with an orbital period
  of 11 yr (Weigelt et al., 1999). It was also found that θ^{1} Ori
  C is an oblique magnetic rotator (Donati et al., 2002; Wade et al.,
  2006). From high resolution spectra of the binary collected with the
  6-m telescope we succeeded to separate week lines of the secondary
  component and to measure its rotation velocity. It was found that the
  secondary rotates three times faster than the primary. We discuss the
  possibility of magnetic braking of the primary star as the mechanism
  explaining the difference of rotation.

---------------------------------------------------------
Title: The 2008 outburst in the young stellar system Z
    CMa. I. Evidence of an enhanced bipolar wind on the AU-scale
Authors: Benisty, M.; Malbet, F.; Dougados, C.; Natta, A.; Le Bouquin,
   J. B.; Massi, F.; Bonnefoy, M.; Bouvier, J.; Chauvin, G.; Chesneau,
   O.; Garcia, P. J. V.; Grankin, K.; Isella, A.; Ratzka, T.; Tatulli,
   E.; Testi, L.; Weigelt, G.; Whelan, E. T.
2010A&A...517L...3B    Altcode: 2010arXiv1007.0682B
  Context. Accretion is a fundamental process in star formation. Although
  the time evolution of accretion remains a matter of debate,
  observations and modelling studies suggest that episodic outbursts
  of strong accretion may dominate the formation of the central
  protostar. Observing young stellar objects during these elevated
  accretion states is crucial to understanding the origin of unsteady
  accretion. <BR /> Aims: Z CMa is a pre-main-sequence binary system
  composed of an embedded Herbig Be star, undergoing photometric
  outbursts, and a FU Orionis star. This system therefore provides a
  unique opportunity to study unsteady accretion processes. The Herbig Be
  component recently underwent its largest optical photometric outburst
  detected so far. We aim to constrain the origin of this outburst
  by studying the emission region of the HI Br<SUB>γ</SUB> line,
  a powerful tracer of accretion/ejection processes on the AU-scale in
  young stars. <BR /> Methods: Using the AMBER/VLTI instrument at spectral
  resolutions of 1500 and 12 000, we performed spatially and spectrally
  resolved interferometric observations of the hot gas emitting across the
  Br<SUB>γ</SUB> emission line, during and after the outburst. From the
  visibilities and differential phases, we derive characteristic sizes
  for the Br<SUB>γ</SUB> emission and spectro-astrometric measurements
  across the line, with respect to the continuum. <BR /> Results: We find
  that the line profile, the astrometric signal, and the visibilities
  are inconsistent with the signature of either a Keplerian disk or
  infall of matter. They are, instead, evidence of a bipolar wind, maybe
  partly seen through a disk hole inside the dust sublimation radius. The
  disappearance of the Br<SUB>γ</SUB> emission line after the outburst
  suggests that the outburst is related to a period of strong mass loss
  rather than a change of the extinction along the line of sight. <BR
  /> Conclusions: Apart from the photometric increase of the system,
  the main consequence of the outburst is to trigger a massive bipolar
  outflow from the Herbig Be component. Based on these conclusions,
  we speculate that the origin of the outburst is an event of enhanced
  mass accretion, similar to those occuring in EX Ors and FU Ors. <P
  />Based on observations collected at the VLTI (ESO Paranal, Chile)
  with programs 282.C-5031, 082.C-0376, 084.C-0162.

---------------------------------------------------------
Title: Imaging beyond the fringe: an update on the LINC-NIRVANA
    Fizeau interferometer for the LBT
Authors: Herbst, T. M.; Ragazzoni, R.; Eckart, A.; Weigelt, G.
2010SPIE.7734E..07H    Altcode: 2010SPIE.7734E...6H
  We present an update on the construction and integration of
  LINC-NIRVANA, a Fizeau-mode imaging interferometer for the
  Large Binocular Telescope (LBT). The LBT is a unique platform for
  interferometry, since its two, co-mounted 8.4 meter primary mirrors
  present an orientation-independent entrance pupil. This allows
  Fizeau-mode beam combination, providing 23-meter spatial resolution and
  12-meter effective collecting area for panoramic imagery LINC-NIRVANA
  will sit at one of the shared, bent focal stations, receiving
  light from both mirrors of the LBT. The instrument uses visible
  wavelength radiation for wavefront control, and the near-infrared
  bands for science and fringe tracking. LINC-NIRVANA employs a number of
  innovative technologies, including multi-conjugated adaptive optics,
  state-of-the-art materials, low vibration mechanical coolers, active
  and passive control, and sophisticated software for data analysis. The
  instrument is in its final construction and integration phase. This
  paper reports on overall progress, including insights gained on
  large instrument assembly, software integration, science planning,
  and vibration control. A number of additional contributions to this
  conference focus on individual subsystems and integration-related
  issues.

---------------------------------------------------------
Title: A hot compact dust disk around a massive young stellar object
Authors: Kraus, Stefan; Hofmann, Karl-Heinz; Menten, Karl M.; Schertl,
   Dieter; Weigelt, Gerd; Wyrowski, Friedrich; Meilland, Anthony; Perraut,
   Karine; Petrov, Romain; Robbe-Dubois, Sylvie; Schilke, Peter; Testi,
   Leonardo
2010Natur.466..339K    Altcode: 2010arXiv1007.5062K
  Circumstellar disks are an essential ingredient of the formation of
  low-mass stars. It is unclear, however, whether the accretion-disk
  paradigm can also account for the formation of stars more massive
  than about 10 solar masses, in which strong radiation pressure
  might halt mass infall. Massive stars may form by stellar merging,
  although more recent theoretical investigations suggest that the
  radiative-pressure limit may be overcome by considering more complex,
  non-spherical infall geometries. Clear observational evidence, such
  as the detection of compact dusty disks around massive young stellar
  objects, is needed to identify unambiguously the formation mode of
  the most massive stars. Here we report near-infrared interferometric
  observations that spatially resolve the astronomical-unit-scale
  distribution of hot material around a high-mass (~20 solar masses)
  young stellar object. The image shows an elongated structure with a
  size of ~13×19astronomical units, consistent with a disk seen at an
  inclination angle of ~45°. Using geometric and detailed physical
  models, we found a radial temperature gradient in the disk, with
  a dust-free region less than 9.5astronomical units from the star,
  qualitatively and quantitatively similar to the disks observed in
  low-mass star formation. Perpendicular to the disk plane we observed
  a molecular outflow and two bow shocks, indicating that a bipolar
  outflow emanates from the inner regions of the system.

---------------------------------------------------------
Title: Detection of high-velocity material from the wind-wind
    collision zone of Eta Carinae across the 2009.0 periastron passage
Authors: Groh, J. H.; Nielsen, K. E.; Damineli, A.; Gull, T. R.;
   Madura, T. I.; Hillier, D. J.; Teodoro, M.; Driebe, T.; Weigelt, G.;
   Hartman, H.; Kerber, F.; Okazaki, A. T.; Owocki, S. P.; Millour, F.;
   Murakawa, K.; Kraus, S.; Hofmann, K. -H.; Schertl, D.
2010A&A...517A...9G    Altcode: 2010arXiv1003.4527G
  We report near-infrared spectroscopic observations of the Eta Carinae
  massive binary system during 2008-2009 using the CRIRES spectrograph
  mounted on the 8 m UT 1 Very Large Telescope (VLT Antu). We detect a
  strong, broad absorption wing in He i λ10833 extending up to -1900
  km s<SUP>-1</SUP> across the 2009.0 spectroscopic event. Analysis of
  archival Hubble Space Telescope/Space Telescope Imaging Spectrograph
  ultraviolet and optical data identifies a similar high-velocity
  absorption (up to -2100 km s<SUP>-1</SUP>) in the ultraviolet resonance
  lines of Si iv λλ1394, 1403 across the 2003.5 event. Ultraviolet
  resonance lines from low-ionization species, such as Si ii λλ1527,
  1533 and C ii λλ1334, 1335, show absorption only up to -1200
  km s<SUP>-1</SUP>, indicating that the absorption with velocities
  -1200 to -2100 km s<SUP>-1</SUP> originates in a region markedly
  more rapidly moving and more ionized than the nominal wind of the
  primary star. Seeing-limited observations obtained at the 1.6 m
  OPD/LNA telescope during the last four spectroscopic cycles of
  Eta Carinae (1989-2009) also show high-velocity absorption in He i
  λ10833 during periastron. Based on the large OPD/LNA dataset, we
  determine that material with velocities more negative than -900 km
  s<SUP>-1</SUP> is present in the phase range 0.976 ≤ ϕ ≤ 1.023 of
  the spectroscopic cycle, but absent in spectra taken at ϕ ≤ 0.94 and
  ϕ ≥ 1.049. Therefore, we constrain the duration of the high-velocity
  absorption to be 95 to 206 days (or 0.047 to 0.102 in phase). We propose
  that the high-velocity absorption component originates in shocked gas
  in the wind-wind collision zone, at distances of 15 to 45 AU in the
  line-of-sight to the primary star. With the aid of three-dimensional
  hydrodynamical simulations of the wind-wind collision zone, we find that
  the dense high-velocity gas is along the line-of-sight to the primary
  star only if the binary system is oriented in the sky such that the
  companion is behind the primary star during periastron, corresponding
  to a longitude of periastron of ω ~ 240°-270°. We study a possible
  tilt of the orbital plane relative to the Homunculus equatorial
  plane and conclude that our data are broadly consistent with orbital
  inclinations in the range i = 40°-60°. <P />Based on observations
  made with ESO Telescopes at the La Silla Paranal Observatory under
  programme IDs 381.D-0262, 282.D-5043, and 383.D-0240; with the Hubble
  Space Telescope Imaging Spectrograph (HST/STIS) under programs 9420
  and 9973; and with the 1.6 m telescope of the OPD/LNA (Brazil).

---------------------------------------------------------
Title: OVMS: the optical path difference and vibration monitoring
    system for the LBT and its interferometers
Authors: Kürster, M.; Bertram, T.; Borelli, J. L.; Brix, M.; Gässler,
   W.; Herbst, T. M.; Naranjo, V.; Pott, J. -U.; Trowitzsch, J.; Connors,
   T. E.; Hinz, P. M.; McMahon, T. J.; Ashby, D. S.; Brynnel, J. G.;
   Cushing, N. J.; Edgin, T.; Esguerra, J. D.; Green, R. F.; Kraus, J.;
   Little, J.; Beckmann, U.; Weigelt, G. P.
2010SPIE.7734E..2YK    Altcode: 2010SPIE.7734E..94K
  Characterisation, mitigation and correction of telescope vibrations
  have proven to be crucial for the performance of astronomical infrared
  interferometers. The project teams of the interferometers for the LBT,
  LINC-NIRVANA and LBTI, and LBT Observatory (LBTO) have embarked on a
  joint effort to implement an accelerometer-based vibration measurement
  system distributed over the optical elements of the LBT. OVMS,
  the Optical Path Difference and Vibration Monitoring System will
  serve to (i) ensure conditions suitable for adaptive optics (AO)
  and interferometric (IF) observations and (ii) utilize vibration
  information, converted into tip-tilt and optical path difference data,
  in the control strategies of the LBT adaptive secondary mirrors and the
  beam combining interferometers. The system hardware is mainly developed
  by Steward Observatory's LBTI team and its installation at the LBT
  is underway. The OVMS software development and associated computer
  infrastructure is the responsibility of the LINC-NIRVANA team at MPIA
  Heidelberg. Initially, the OVMS will fill a data archive provided by
  LBTO that will be used to study vibration data and correlate them with
  telescope movements and environmental parameters thereby identifiying
  sources of vibrations and to eliminate or mitigate them. Data display
  tools will help LBTO staff to keep vibrations within predefined
  thresholds for quiet conditions for AO and IF observations. Later-on
  real-time data from the OVMS will be fed into the control loops of
  the AO systems and IF instruments in order to permit the correction
  of vibration signals with frequencies up to 450 Hz.

---------------------------------------------------------
Title: First results from VLTI near-infrared interferometry on
    high-mass young stellar objects
Authors: Kraus, Stefan; Hofmann, Karl-Heinz; Menten, Karl M.; Schertl,
   Dieter; Weigelt, Gerd; Wyrowski, Friedrich; Meilland, Anthony; Perraut,
   Karine; Petrov, Romain; Robbe-Dubois, Sylvie; Schilke, Peter; Testi,
   Leonardo
2010SPIE.7734E..08K    Altcode: 2010SPIE.7734E...7K; 2010arXiv1008.0001K
  Due to the recent dramatic technological advances, infrared
  interferometry can now be applied to new classes of objects,
  resulting in exciting new science prospects, for instance, in the
  area of high-mass star formation. Although extensively studied at
  various wavelengths, the process through which massive stars form is
  still only poorly understood. For instance, it has been proposed that
  massive stars might form like low-mass stars by mass accretion through
  a circumstellar disk/envelope, or otherwise by coalescence in a dense
  stellar cluster. Therefore, clear observational evidence, such as
  the detection of disks around high-mass young stellar objects (YSOs),
  is urgently needed in order to unambiguously identify the formation
  mode of the most massive stars. After discussing the technological
  challenges which result from the special properties of these objects,
  we present first near-infrared interferometric observations, which we
  obtained on the massive YSO IRAS 13481-6124 using VLTI/AMBER infrared
  long-baseline interferometry and NTT speckle interferometry. From
  our extensive data set, we reconstruct a model-independent aperture
  synthesis image which shows an elongated structure with a size of ~
  13 x 19 AU, consistent with a disk seen under an inclination of -
  45°. The measured wavelengthdependent visibilities and closure phases
  allow us to derive the radial disk temperature gradient and to detect a
  dust-free region inside of 9.5 AU from the star, revealing qualitative
  and quantitative similarities with the disks observed in low-mass star
  formation. In complementary mid-infrared Spitzer and sub-millimeter APEX
  imaging observations we detect two bow shocks and a molecular outflow,
  which are oriented perpendicular to the disk plane and indicate the
  presence of a bipolar outflow emanating from the inner regions of
  the system.

---------------------------------------------------------
Title: ARGOS: the laser guide star system for the LBT
Authors: Rabien, S.; Ageorges, N.; Barl, L.; Beckmann, U.; Blümchen,
   T.; Bonaglia, M.; Borelli, J. L.; Brynnel, J.; Busoni, L.; Carbonaro,
   L.; Davies, R.; Deysenroth, M.; Durney, O.; Elberich, M.; Esposito, S.;
   Gasho, V.; Gässler, W.; Gemperlein, H.; Genzel, R.; Green, R.; Haug,
   M.; Hart, M. L.; Hubbard, P.; Kanneganti, S.; Masciadri, E.; Noenickx,
   J.; Orban de Xivry, G.; Peter, D.; Quirrenbach, A.; Rademacher, M.;
   Rix, H. W.; Salinari, P.; Schwab, C.; Storm, J.; Strüder, L.; Thiel,
   M.; Weigelt, G.; Ziegleder, J.
2010SPIE.7736E..0ER    Altcode: 2010SPIE.7736E..12R
  ARGOS is the Laser Guide Star adaptive optics system for the Large
  Binocular Telescope. Aiming for a wide field adaptive optics correction,
  ARGOS will equip both sides of LBT with a multi laser beacon system
  and corresponding wavefront sensors, driving LBT's adaptive secondary
  mirrors. Utilizing high power pulsed green lasers the artificial beacons
  are generated via Rayleigh scattering in earth's atmosphere. ARGOS
  will project a set of three guide stars above each of LBT's mirrors
  in a wide constellation. The returning scattered light, sensitive
  particular to the turbulence close to ground, is detected in a gated
  wavefront sensor system. Measuring and correcting the ground layers of
  the optical distortions enables ARGOS to achieve a correction over a
  very wide field of view. Taking advantage of this wide field correction,
  the science that can be done with the multi object spectrographs LUCIFER
  will be boosted by higher spatial resolution and strongly enhanced flux
  for spectroscopy. Apart from the wide field correction ARGOS delivers
  in its ground layer mode, we foresee a diffraction limited operation
  with a hybrid Sodium laser Rayleigh beacon combination.

---------------------------------------------------------
Title: The dusty heart of nearby active galaxies. I. High-spatial
    resolution mid-IR spectro-photometry of Seyfert galaxies
Authors: Hönig, S. F.; Kishimoto, M.; Gandhi, P.; Smette, A.; Asmus,
   D.; Duschl, W.; Polletta, M.; Weigelt, G.
2010A&A...515A..23H    Altcode: 2010arXiv1003.0920H
  In a series of papers, we aim at stepping towards characterizing
  physical properties of the AGN dust torus by combining IR high-spatial
  resolution observations with 3D clumpy torus models. In this
  first paper, we present mid-IR imaging and 8-13 μm low-resolution
  spectroscopy of nine type 1 and ten type 2 AGN. The observations
  were carried out with the VLT/VISIR mid-IR imager and spectrograph
  and can be considered the largest currently available mid-infrared
  spectro-photometric data set of AGN at spatial resolution ⪉100
  pc. These data resolve scales at which the emission from the dust
  torus dominates the overall flux, and emission from the host galaxy
  (e.g. star-formation) is resolved out in most cases. The silicate
  absorption features are moderately deep and emission features, if
  seen at all, are shallow. The strongest silicate emission feature
  in our sample shows some notable shift of the central wavelength
  from the expected 9.7 μm (based on ISM extinction curves) to ~10.5
  μm. We compare the observed mid-IR luminosities of our objects to
  AGN luminosity tracers (X-ray, optical and [O iii] luminosities)
  and find that the mid-IR radiation is emitted quite isotropically. In
  two cases, IC 5063 and MCG-3-34-64, we find evidence for extended dust
  emission in the narrow-line region. We confirm the correlation between
  observed silicate feature strength and Hydrogen column density, which
  was recently found in Spitzer data at lower spatial resolution. In
  a further step, our 3D clumpy torus model has been used to interpret
  the data. We show that the strength of the silicate feature and the
  mid-IR spectral index α can be used to get reasonable constraints
  on the radial dust distribution of the torus and the average number
  of clouds N<SUB>0</SUB> along an equatorial line-of-sight in clumpy
  torus models. The mid-IR spectral index α is almost exclusively
  determined by the radial dust distribution power-law index a, while the
  silicate feature depth mostly depends on N<SUB>0</SUB> and the torus
  inclination. A comparison of model predictions to our type 1 and type 2
  AGN reveals that average parameters of a = -1.0±0.5 and N<SUB>0</SUB>
  = 5-8 are typically seen in the presented sample, which means that the
  radial dust distribution is rather shallow. As a proof-of-concept of
  this method, we compared the model parameters derived from α and the
  silicate feature strength to more detailed studies of full IR SEDs and
  interferometry and found that the constraints on a and N<SUB>0</SUB>
  are consistent. Finally, we may have found evidence that the radial
  structure of the torus changes from low to high AGN luminosities
  towards steeper dust distributions, and we discuss implications for
  the IR size-luminosity relation. <P />Based on ESO observing programs
  078.B-0303, 080.B-0240, 280.B-5068, 082.B-0299, and 083.B-0239.

---------------------------------------------------------
Title: Is Eta Carinae a Fast Rotator, and How Much Does the Companion
    Influence the Inner Wind Structure?
Authors: Groh, J. H.; Madura, T. I.; Owocki, S. P.; Hillier, D. J.;
   Weigelt, G.
2010ApJ...716L.223G    Altcode: 2010arXiv1006.4816G
  We analyze interferometric measurements of the luminous blue variable
  Eta Carinae with the goal of constraining the rotational velocity of
  the primary star and probing the influence of the companion. Using
  two-dimensional radiative transfer models of latitude-dependent
  stellar winds, we find that prolate-wind models with a ratio of the
  rotational velocity (v <SUB>rot</SUB>) to the critical velocity (v
  <SUB>crit</SUB>) of W = 0.77-0.92, inclination angle of i = 60°-90°,
  and position angle (P.A.) =108°-142° reproduce simultaneously K-band
  continuum visibilities from VLTI/VINCI and closure phase measurements
  from VLTI/AMBER. Interestingly, oblate models with W = 0.73-0.90 and
  i = 80°-90° produce similar fits to the interferometric data, but
  require P.A. =210°-230°. Therefore, both prolate and oblate models
  suggest that the rotation axis of the primary star is not aligned
  with the Homunculus polar axis. We also compute radiative transfer
  models of the primary star allowing for the presence of a cavity and
  dense wind-wind interaction region created by the companion star. We
  find that the wind-wind interaction has a significant effect on the
  K-band image mainly via free-free emission from the compressed walls
  and, for reasonable model parameters, can reproduce the VLTI/VINCI
  visibilities taken at phi<SUB>vb03</SUB> = 0.92-0.93. We conclude that
  the density structure of the primary wind can be sufficiently disturbed
  by the companion, thus mimicking the effects of fast rotation in the
  interferometric observables. Therefore, fast rotation may not be the
  only explanation for the interferometric observations. Intense temporal
  monitoring and three-dimensional modeling are needed to resolve these
  issues. <P />Based on observations made with VLTI/AMBER and VLTI/VINCI.

---------------------------------------------------------
Title: Zooming in on high-mass star formation with combined VLTI
    near-infrared interferometry and ATCA millimeter interferometry
Authors: Kraus, Stefan; Menten, Karl; Schilke, Peter; Wyrowski,
   Friedrich; Bergin, Edwin; Weigelt, Gerd
2010atnf.prop.3317K    Altcode:
  In spite of its importance for astrophysics, the process through which
  massive stars form is only poorly understood. In a recent study,
  we resolved the inner environment around the high-mass protostar
  IRAS13481-6124 (G310.0135+00.3892) using VLTI near-infrared (2
  micrometer) long-baseline interferometry and detected a compact (11
  AU) disk-like structure, whose size is consistent with the expected
  dust sublimation radius. Perpendicular to the disk plane, we detect
  two bow shocks in Spitzer/IRAC images, suggesting the presence of a
  collimated bipolar outflow. The outflow was also detected in molecular
  line emission using the APEX single-dish telescope. In order to study
  the inner-most outflow regions and to measure the collimation angle,
  we propose interferometric observations in SiO, HCO+, and in the 3mm
  continuum emission. We also aim to resolve the thermal emission of the
  circumstellar dust, providing important constraints on the radial dust
  density profile. For the physical interpretation of the obtained data,
  we will simultaneously fit the SED and VLTI&amp;ATCA visibilities using
  2-D radiative transfer modeling, enabling us to characterize the global
  structure of the putative disk around this high-mass protostar.

---------------------------------------------------------
Title: First spatial resolution of the stellar components of the
    interacting binary CH Cygni
Authors: Mikołajewska, Joanna; Balega, Yuri; Hofmann, Karl-Heinz;
   Weigelt, Gerd
2010MNRAS.403L..21M    Altcode: 2009arXiv0910.5176M; 2010MNRAS.tmpL...8M
  We report the first resolved bispectrum speckle interferometry of
  the symbiotic binary CH Cyg. The measured component separation,
  ρ = 42 +/- 2mas, is consistent with the one derived from the
  known spectroscopic orbit and distance. In particular, our result
  implies a total mass of the binary of M<SUB>t</SUB> = M<SUB>g</SUB> +
  M<SUB>wd</SUB> = 3.7<SUP>+3.5</SUP><SUB>-1.7</SUB>M<SUB>solar</SUB>,
  which is in good agreement with the value M<SUB>t</SUB> =
  2.7<SUP>+1.2</SUP><SUB>-0.6</SUB>M<SUB>solar</SUB> derived from
  the spectroscopic orbit solution for the red giant and evolutionary
  constraints. We also show that the radio jets and the bipolar outflow
  are not orthogonal to the orbital plane of the binary system. <P
  />Based on observations made with the 6-m BTA telescope, which is
  operated by the Special Astrophysical Observatory (SAO), Russia. <P
  />E-mail: mikolaj@camk.edu.pl

---------------------------------------------------------
Title: Infrared Interferometry of Young Stellar Objects
Authors: Kraus, S.; Hofmann, K. -H.; Preibisch, T.; Weigelt, G.
2010RMxAC..38...63K    Altcode:
  The circumstellar disks around young stellar objects play a key role
  in the formation process of stars and provide the stage for planet
  formation. Since recently, infrared interferometry provides the
  spatial resolution required to directly study the distribution of the
  gas and dust in the innermost AU around the forming star. We present
  recent investigations in which we employed the VLTI and its near- and
  mid-infrared interferometric instruments AMBER and MIDI to constrain
  the geometry and physical conditions of the disks around Herbig Ae/Be
  stars and to study the accretion and outflow processes taking place
  close to the central star.

---------------------------------------------------------
Title: Probing the innermost infrared emission in the brightest Type
    1 AGN with the CHARA array
Authors: Kishimoto, Makoto; Antonucci, Robert; Barvainis, Richard;
   Hoenig, Sebastian; Millour, Florentin; Tristram, Konrad; Weigelt, Gerd
2010noao.prop...81K    Altcode:
  We are making a major progress in AGN studies with the Keck
  long- baseline interferometer in the near-IR. Based on our recent
  observations, we are spatially resolving the innermost structure of
  the AGN tori, and mapping out its radial structure quantitatively. This
  totally new knowledge could well be the key to understand the critical
  accretion process toward the central engine. Here we propose to
  consolidate our new exploration by probing the structure of the
  brightest Type 1 AGN at the highest spatial frequencies using very
  long baselines, available only with the CHARA array.

---------------------------------------------------------
Title: Strong near-infrared emission in the sub-AU disk of the Herbig
Ae star HD 163296: evidence of refractory dust?
Authors: Benisty, M.; Natta, A.; Isella, A.; Berger, J. -P.; Massi,
   F.; Le Bouquin, J. -B.; Mérand, A.; Duvert, G.; Kraus, S.; Malbet,
   F.; Olofsson, J.; Robbe-Dubois, S.; Testi, L.; Vannier, M.; Weigelt, G.
2010A&A...511A..74B    Altcode: 2009arXiv0911.4363B
  We present new long-baseline spectro-interferometric observations
  of the Herbig Ae star HD 163296 (MWC 275) obtained in the H and K
  bands with the AMBER instrument at the VLTI. The observations cover
  a range of spatial resolutions between ~3 and ~12 milliarcseconds,
  with a spectral resolution of ~30. With a total of 1481 visibilities
  and 432 closure phases, they represent the most comprehensive (u,v)
  coverage achieved so far for a young star. The circumstellar material
  is resolved at the sub-AU spatial scale and closure phase measurements
  indicate a small but significant deviation from point-symmetry. We
  discuss the results assuming that the near-infrared excess in HD 163296
  is dominated by the emission of a circumstellar disk. A successful fit
  to the spectral energy distribution, near-infrared visibilities and
  closure phases is found with a model in which a dominant contribution
  to the H and K band emission originates in an optically thin, smooth
  and point-symmetric region extending from about 0.1 to 0.45 AU. At
  a distance of 0.45 AU from the star, silicates condense, the disk
  becomes optically thick and develops a puffed-up rim, whose skewed
  emission can account for the non-zero closure phases. We discuss
  the source of the inner disk emission and tentatively exclude dense
  molecular gas as well as optically thin atomic or ionized gas as its
  possible origin. We propose instead that the smooth inner emission
  is produced by very refractory grains in a partially cleared region,
  extending to at least ~0.5 AU. If so, we may be observing the disk of
  HD 163296 just before it reaches the transition disk phase. However,
  we note that the nature of the refractory grains or, in fact, even
  the possibility of any grain surviving at the very high temperatures
  we require (~2100-2300 K at 0.1 AU from the star) is unclear and
  should be investigated further. <P />Based on AMBER observations
  collected at the VLTI (European Southern Observatory, Paranal, Chile)
  with Arcetri Guaranteed Time program 081.C-0124, LAOG Guaranteed Time
  program 081.C-0794 and open time programs 081.C-0851, 081.C-0098.

---------------------------------------------------------
Title: High Velocity Absorption during Eta Car B's periastron passage
Authors: Nielsen, Krister E.; Groh, J. H.; Hillier, J.; Gull, T. R.;
   Madura, T. I.; Owocki, S. P.; Okazaki, A. T.; Damineli, A.; Teodoro,
   M.; Weigelt, G.; Hartman, H.
2010AAS...21542605N    Altcode: 2010BAAS...42..341N
  Eta Car is one of the most luminous massive stars in the Galaxy,
  with repeated eruptions with a 5.5 year periodicity. These events are
  caused by the periastron passage of a massive companion in an eccentric
  orbit. We report the VLT/CRIRES detection of a strong high-velocity
  (&lt; 1900 km/s), broad absorption wing in He I at 10833 A during the
  2009.0 periastron passage. Previous observations during the 2003.5
  event have shown evidence of such high-velocity absorption in the He
  I 10833 transition, allowing us to conclude that the high-velocity
  gas is crossing the line-of-sight toward Eta Car over a time period
  of approximately 2 months. Our analysis of HST/STIS archival data
  with observations of high velocity absorption in the ultraviolet Si
  IV and C IV resonance lines, confirm the presence of a high-velocity
  material during the spectroscopic low state. The observations provide
  direct detection of high-velocity material flowing from the wind-wind
  collision zone around the binary system, and we discuss the implications
  of the presence of high-velocity gas in Eta Car during periastron.

---------------------------------------------------------
Title: Revealing the sub-AU asymmetries of the inner dust rim in
    the disk around the Herbig Ae star R Coronae Austrinae
Authors: Kraus, S.; Hofmann, K. -H.; Malbet, F.; Meilland, A.; Natta,
   A.; Schertl, D.; Stee, P.; Weigelt, G.
2009A&A...508..787K    Altcode: 2009arXiv0911.3653K
  Context: Unveiling the structure of the disks around intermediate-mass
  pre-main-sequence stars (Herbig Ae/Be stars) is essential for our
  understanding of the star and planet formation process. In particular,
  models predict that in the innermost AU around the star, the dust disk
  forms a “puffed-up” inner rim, which should result in a strongly
  asymmetric brightness distribution for disks seen under intermediate
  inclination.<BR /> Aims: Our aim is to constrain the sub-AU geometry
  of the inner disk around the Herbig Ae star R CrA and search for
  the predicted asymmetries.<BR /> Methods: Using the VLTI/AMBER
  long-baseline interferometer, we obtained 24 near-infrared (H- and
  K-band) spectro-interferometric observations on R CrA. Observing
  with three telescopes in a linear array configuration, each data
  set samples three equally spaced points in the visibility function,
  providing direct information about the radial intensity profile. In
  addition, the observations cover a wide position angle range (~97°),
  also probing the position angle dependence of the source brightness
  distribution.<BR /> Results: In the derived visibility function,
  we detect the signatures of an extended (Gaussian FWHM ~ 25 mas)
  and a compact component (Gaussian FWHM ~ 5.8 mas), with the compact
  component contributing about two-thirds of the total flux (both in
  H- and K-band). The brightness distribution is highly asymmetric,
  as indicated by the strong closure phases (up to ~40°) and the
  detected position angle dependence of the visibilities and closure
  phases. To interpret these asymmetries, we employ various geometric
  as well as physical models, including a binary model, a skewed ring
  model, and a puffed-up inner rim model with a vertical or curved
  rim shape. For the binary and vertical rim model, no acceptable fits
  could be obtained. On the other hand, the skewed ring model and the
  curved puffed-up inner rim model allow us to simultaneously reproduce
  the measured visibilities and closure phases. From these models we
  derive the location of the dust sublimation radius (~0.4 AU), the disk
  inclination angle (~35°), and a north-south disk orientation (PA ~
  180-190°). Our curved puffed-up rim model can reproduce reasonably well
  the interferometric observables and the SED and suggests a luminosity of
  ~29 L<SUB>⊙</SUB> and the presence of relatively large (⪆1.2 μm)
  Silicate dust grains. Our study also reveals discrepancies between
  the measured interferometric observables and the puffed-up inner
  rim models, providing important constraints for future refinements
  of these theoretical models. Perpendicular to the disk, two bow
  shock-like structures appear in the associated reflection nebula NGC
  6729, suggesting that the detected sub-AU size disk is the driving
  engine of a large-scale outflow.<BR /> Conclusions: Detecting, for the
  first time, strong non-localized asymmetries in the inner regions of a
  Herbig Ae disk, our study supports the existence of a puffed-up inner
  rim in YSO disks. <P />Based on observations made with ESO telescopes
  at the La Silla Paranal Observatory under programme IDs 079.D-0370(A),
  081.C-0272(A,B,C), and <P />081.C-0321(A).

---------------------------------------------------------
Title: Exploring the inner region of type 1 AGNs with the Keck
    interferometer
Authors: Kishimoto, M.; Hönig, S. F.; Antonucci, R.; Kotani, T.;
   Barvainis, R.; Tristram, K. R. W.; Weigelt, G.
2009A&A...507L..57K    Altcode: 2009arXiv0911.0666K
  The exploration of extragalactic objects with long-baseline
  interferometers in the near-infrared has been very limited. Here we
  report successful observations with the Keck interferometer at K-band
  (2.2 μm) for four type 1 AGNs, namely NGC 4151, Mrk231, NGC 4051,
  and the QSO IRAS 13349+2438 at z = 0.108. For the latter three objects,
  these are the first long-baseline interferometric measurements in the
  infrared. We detect high visibilities (V<SUP>2</SUP> ~ 0.8-0.9) for
  all the four objects including NGC 4151, for which we confirm the high
  V<SUP>2</SUP> level measured by Swain et al. (2003, ApJ, 596, L163). We
  marginally detect a decrease of V<SUP>2</SUP> with increasing baseline
  lengths for NGC 4151, although over a very limited range, where the
  decrease and absolute V<SUP>2</SUP> are well fitted with a ring model
  having a radius of 0.45 ± 0.04 mas (0.039 ± 0.003 pc). Strikingly,
  this matches independent radius measurements from optical-infrared
  reverberations that are thought to be probing the dust sublimation
  radius. We also show that the effective radius of the other objects,
  obtained from the same ring model, is either roughly equal to or
  slightly larger than the reverberation radius as a function of AGN
  luminosity. This suggests that we are indeed partially resolving the
  dust sublimation region. The ratio of the effective ring radius to the
  reverberation radius might also give us an approximate probe for the
  radial structure of the inner accreting material in each object. This
  should be scrutinized with further observations.

---------------------------------------------------------
Title: VLTI/AMBER unveils a possible dusty pinwheel nebula in WR118
Authors: Millour, F.; Driebe, T.; Chesneau, O.; Groh, J. H.; Hofmann,
   K. -H.; Murakawa, K.; Ohnaka, K.; Schertl, D.; Weigelt, G.
2009A&A...506L..49M    Altcode: 2009arXiv0909.4207M
  Context: Most Wolf-Rayet stars (WR) of the WC9 subtype exhibit a
  dusty circumstellar envelope, but it is still a matter of debate
  how dust can form in their harsh environment. In a few cases, a
  pinwheel-like structure of the dusty envelope has been detected;
  therefore, it has been suggested that dust formation in all dusty
  WR stars might be linked to colliding winds in a binary system. <BR
  />Aims: We probed the innermost region of the circumstellar dust
  shell of the deeply embedded WR star <ASTROBJ>WR 118</ASTROBJ>. <BR
  />Methods: We carried out spectro-interferometric observations using
  the AMBER instrument of ESO's Very Large Telescope Interferometer in
  low-spectral resolution mode (R=35). The K-band observations were
  obtained with three 1.8 m telescopes spanning projected baselines
  between 9.2 and 40.1 m. <BR />Results: At high spatial frequencies,
  the AMBER visibilities exhibit a prominent lobe, indicating that the
  envelope contains one or several zones with a large local intensity
  gradient. The strong closure phase signal clearly shows that the
  circumstellar envelope of <ASTROBJ>WR 118</ASTROBJ> can only be
  described by an asymmetric intensity distribution. We show that a
  pinwheel nebula seen at low inclination is consistent with the AMBER
  data. Its size was determined to be 13.9±1.1 mas. <BR />Conclusions:
  <ASTROBJ>WR 118</ASTROBJ> possibly harbors a pinwheel nebula, which
  suggests a binary nature of the system. According to our best model,
  the period of the system would be ≈60 days (for d=3 kpc), making
  WR 118 the shortest-period pinwheel nebula known so far. <P />The
  observations presented in this paper were <P />obtained with the
  AMBER instrument of ESO's Very Large Telescope <P />Interferometer
  (VLTI) as part of the guaranteed time programme <P />079.D-0359(A)
  (PI: T. Driebe). The reduced data will be sent to <P />the ESO archive.

---------------------------------------------------------
Title: A binary engine fuelling HD 87643's complex circumstellar
    environment. Determined using AMBER/VLTI imaging
Authors: Millour, F.; Chesneau, O.; Borges Fernandes, M.; Meilland,
   A.; Mars, G.; Benoist, C.; Thiébaut, E.; Stee, P.; Hofmann, K. -H.;
   Baron, F.; Young, J.; Bendjoya, P.; Carciofi, A.; Domiciano de Souza,
   A.; Driebe, T.; Jankov, S.; Kervella, P.; Petrov, R. G.; Robbe-Dubois,
   S.; Vakili, F.; Waters, L. B. F. M.; Weigelt, G.
2009A&A...507..317M    Altcode: 2009arXiv0908.0227M
  Context: The star HD 87643, exhibiting the “B[e] phenomenon”, has
  one of the most extreme infrared excesses for this object class. It
  harbours a large amount of both hot and cold dust, and is surrounded
  by an extended reflection nebula. <BR />Aims: One of our major goals
  was to investigate the presence of a companion in HD87643. In addition,
  the presence of close dusty material was tested through a combination of
  multi-wavelength high spatial resolution observations. <BR />Methods:
  We observed HD 87643 with high spatial resolution techniques, using
  the near-IR AMBER/VLTI interferometer with baselines ranging from 60
  m to 130 m and the mid-IR MIDI/VLTI interferometer with baselines
  ranging from 25 m to 65 m. These observations are complemented by
  NACO/VLT adaptive-optics-corrected images in the K and L-bands,
  and ESO-2.2m optical Wide-Field Imager large-scale images in the B,
  V and R-bands. <BR />Results: We report the direct detection of a
  companion to HD 87643 by means of image synthesis using the AMBER/VLTI
  instrument. The presence of the companion is confirmed by the MIDI and
  NACO data, although with a lower confidence. The companion is separated
  by ~34 mas with a roughly north-south orientation. The period must be
  large (several tens of years) and hence the orbital parameters are not
  determined yet. Binarity with high eccentricity might be the key to
  interpreting the extreme characteristics of this system, namely a dusty
  circumstellar envelope around the primary, a compact dust nebulosity
  around the binary system and a complex extended nebula suggesting
  past violent ejections. <P />Based on observations made with the ESO
  very large telescope at Paranal Observatory under programs 076.D-0575,
  077.D-0095, 076.D-0141, 380.D-0340, and 280.C-5071, with the ESO 1.52-m
  and archival ESO data. <P />Appendix is only available in electronic
  form at http://www.aanda.org

---------------------------------------------------------
Title: Resolving the asymmetric inner wind region of the yellow
    hypergiant <ASTROBJ>IRC +10420</ASTROBJ> with VLTI/AMBER in low and
    high spectral resolution mode
Authors: Driebe, T.; Groh, J. H.; Hofmann, K. -H.; Ohnaka, K.; Kraus,
   S.; Millour, F.; Murakawa, K.; Schertl, D.; Weigelt, G.; Petrov,
   R.; Wittkowski, M.; Hummel, C. A.; Le Bouquin, J. B.; Merand, A.;
   Schöller, M.; Massi, F.; Stee, P.; Tatulli, E.
2009A&A...507..301D    Altcode: 2009arXiv0909.4688D
  Context: <ASTROBJ>IRC +10420 </ASTROBJ>is a massive evolved star
  belonging to the group of yellow hypergiants. Currently, this star
  is rapidly evolving through the Hertzprung-Russell diagram, crossing
  the so-called yellow void. <ASTROBJ>IRC +10420 </ASTROBJ>is suffering
  from intensive mass loss which led to the formation of an extended
  dust shell. Moreover, the dense stellar wind of <ASTROBJ>IRC +10420
  </ASTROBJ>is subject to strong line emission. <BR />Aims: Our goal was
  to probe the photosphere and the innermost circumstellar environment
  of <ASTROBJ>IRC +10420</ASTROBJ>, to measure the size of its continuum-
  as well as the Brγ line-emitting region on milliarcsecond scales, and
  to search for evidence of an asymmetric distribution of <ASTROBJ>IRC
  +10420</ASTROBJ>'s dense, circumstellar gas. <BR />Methods: We obtained
  near-infrared long-baseline interferometry of <ASTROBJ>IRC +10420
  </ASTROBJ> with the AMBER instrument of ESO's Very Large Telescope
  Interferometer (VLTI). The measurements were carried out in May/June
  2007 and May 2008 in low-spectral resolution mode in the JHK bands
  using three auxillary telescopes (ATs) at projected baselines ranging
  from 30 to 96 m, and in October 2008 in high-spectral resolution
  mode in the K band around the Brγ emission line using three unit
  telescopes (UTs) with projected baselines between 54 and 129 m. The
  high-spectral resolution mode observations were analyzed by means
  of radiative transfer modeling using CMFGEN and the 2D Busche &amp;
  Hillier codes. <BR />Results: For the first time, we have been able to
  absolutely calibrate the H- and K-band data and, thus, to determine
  the angular size of IRC+10420's continuum- and Brγ line-emitting
  regions. We found that both the low resolution differential and
  closure phases are zero within the uncertainty limits across all three
  bands. In the high-spectral resolution observations, the visibilities
  show a noticeable drop across the Brγ line on all three baselines. We
  found differential phases up to -25° in the redshifted part of the
  Brγ line and a non-zero closure phase close to the line center. The
  calibrated visibilities were corrected for AMBER's limited field-of-view
  to appropriately account for the flux contribution of <ASTROBJ>IRC
  +10420</ASTROBJ>'s extended dust shell. From our low-spectral resolution
  AMBER data we derived FWHM Gaussian sizes of 1.05±0.07 and 0.98±0.10
  mas for <ASTROBJ>IRC +10420</ASTROBJ>'s continuum-emitting region in
  the H and K bands, respectively. From the high-spectral resolution
  data, we obtained a FWHM Gaussian size of 1.014±0.010 mas in the
  K-band continuum. The Brγ -emitting region can be fitted with a
  geometric ring model with a diameter of 4.18^+0.19<SUB>-0.09</SUB>
  mas, which is approximately 4 times the stellar size. The geometric
  model also provides some evidence that the Brγ line-emitting region
  is elongated towards a position angle of 36°, well aligned with the
  symmetry axis of the outer reflection nebula. Assuming an unclumped
  wind and a luminosity of 6×10^5{ {L}<SUB>⊙</SUB>}, the spherical
  radiative transfer modeling with CMGFEN yields a current mass-loss
  rate of 1.5-2.0×10<SUP>-5</SUP>{ {M}<SUB>⊙</SUB> yr<SUP>-1</SUP>}
  based on the Brγ equivalent width. However, the spherical CMFGEN model
  poorly reproduces the observed line shape, blueshift, and extension,
  definitively showing that the <ASTROBJ>IRC +10420 </ASTROBJ>outflow
  is asymmetric. Our 2D radiative transfer modeling shows that the
  blueshifted Brγ emission and the shape of the visibility across the
  emission line can be explained with an asymmetric bipolar outflow with a
  high density contrast from pole to equator (8-16), where the redshifted
  light is substantially diminished. <P />The low-spectral resolution
  data have been obtained as part of the Guaranteed Time Programme
  for VLTI/AMBER (program ID: 079.D-0356(B)), while the high-spectral
  resolution data were obtained in the context of science verification
  observations (program ID: 60.A-9053(D)).

---------------------------------------------------------
Title: Spatially resolving the inhomogeneous structure of the
    dynamical atmosphere of Betelgeuse with VLTI/AMBER
Authors: Ohnaka, K.; Hofmann, K. -H.; Benisty, M.; Chelli, A.; Driebe,
   T.; Millour, F.; Petrov, R.; Schertl, D.; Stee, Ph.; Vakili, F.;
   Weigelt, G.
2009A&A...503..183O    Altcode: 2009arXiv0906.4792O
  Aims: We present spatially resolved, high-spectral resolution K-band
  observations of the red supergiant <ASTROBJ>Betelgeuse</ASTROBJ>
  (<ASTROBJ>α Ori</ASTROBJ>) using AMBER at the Very Large Telescope
  Interferometer (VLTI). Our aim is to probe inhomogeneous structures
  in the dynamical atmosphere of Betelgeuse. <BR />Methods: Betelgeuse
  was observed in the wavelength range between 2.28 and 2.31 μm
  with VLTI/AMBER using baselines of 16, 32, and 48 m. The spectral
  resolutions of 4800-12 000 allow us to study inhomogeneities seen
  in the individual CO first overtone lines. <BR />Results: Spectrally
  dispersed interferograms have been successfully obtained in the second,
  third, and fifth lobes, which represents the highest spatial resolution
  (9 mas) achieved for Betelgeuse. This corresponds to five resolution
  elements over its stellar disk. The AMBER visibilities and closure
  phases in the K-band continuum can be reasonably fitted by a uniform
  disk with a diameter of 43.19 ± 0.03 mas or a limb-darkening disk
  with 43.56 ± 0.06 mas and a limb-darkening parameter of (1.2 ±
  0.07) × 10<SUP>-1</SUP>. These AMBER data and the previous K-band
  interferometric data taken at various epochs suggest that Betelgeuse
  seen in the K-band continuum shows much smaller deviations from
  the above uniform disk or limb-darkened disk than predicted by
  recent 3-D convection simulations for red supergiants. On the other
  hand, our AMBER data in the CO lines reveal salient inhomogeneous
  structures. The visibilities and phases (closure phases, as well as
  differential phases representing asymmetry in lines with respect to
  the continuum) measured within the CO lines show that the blue and red
  wings originate in spatially distinct regions over the stellar disk,
  indicating an inhomogeneous velocity field that makes the star appear
  different in the blue and red wings. Our AMBER data in the CO lines can
  be roughly explained by a simple model, in which a patch of CO gas is
  moving outward or inward with velocities of 10-15 km s<SUP>-1</SUP>,
  while the CO gas in the remaining region in the atmosphere is moving
  in the opposite direction at the same velocities. Also, the AMBER
  data are consistent with the presence of warm molecular layers
  (so-called MOLsphere) extending to 1.4-1.5 R<SUB>star</SUB> with
  a CO column density of 1 × 10<SUP>20</SUP> cm<SUP>-2</SUP>. <BR
  />Conclusions: Our AMBER observations of Betelgeuse are the first
  spatially resolved study of the so-called macroturbulence in a stellar
  atmosphere (photosphere and possibly MOLsphere as well) other than
  the Sun. The spatially resolved CO gas motion is likely to be related
  to convective motion in the upper atmosphere or intermittent mass
  ejections in clumps or arcs. <P />Based on AMBER and VINCI observations
  made with the Very Large Telescope Interferometer of the European
  Southern Observatory. Program IDs: 080.D-0236 (AMBER Guaranteed Time
  Observation), 60.A-9054A, and 60.A-9222A.

---------------------------------------------------------
Title: Tracing the Dynamic Orbit of the Young, Massive
    High-Eccentricity Binary System θ1 Orionis C. First results from
    VLTI aperture-synthesis imaging and ESO 3.6-metre visual speckle
    interferometry
Authors: Kraus, Stefan; Weigelt, Gerd; Balega, Yuri; Docobo, Jose;
   Hofmann, Karl-Heinz; Preibisch, Thomas; Schertl, Dieter; Tamazian,
   Vakhtang; Driebe, Thomas; Ohnaka, Keiichi; Petrov, Romain; Schöller,
   Markus; Smith, Michael
2009Msngr.136...44K    Altcode:
  Located in the Orion Trapezium Cluster, θ1 Ori C is one of the youngest
  and nearest high-mass stars known. Besides its unique properties
  as an oblique magnetic rotator, the star happens to be a close (~20
  milliarcseconds) binary system, which makes it an ideal laboratory
  to determine the fundamental parameters of young hot stars. In this
  article, we report on our 11-year interferometric monitoring campaign,
  which covers nearly the full dynamic orbit of the system and resulted in
  the first interferometric images obtained with the VLT interferometer
  (VLTI) in the infrared (~20 µm) and diffraction-limited bispectrum
  speckle interferometry at the ESO 3.6-metre telescope at visual (440
  nm) wavelengths.

---------------------------------------------------------
Title: A new spectroscopic and interferometric study of the young
    stellar object V645 Cygni
Authors: Miroshnichenko, A. S.; Hofmann, K. -H.; Schertl, D.;
   Weigelt, G.; Kraus, S.; Manset, N.; Albert, L.; Balega, Y. Y.;
   Klochkova, V. G.; Rudy, R. J.; Lynch, D. K.; Mazuk, S.; Venturini,
   C. C.; Russell, R. W.; Grankin, K. N.; Puetter, R. C.; Perry, R. B.
2009A&A...498..115M    Altcode: 2009arXiv0904.1822M
  Aims: We present the results of high-resolution optical spectroscopy,
  low-resolution near-IR spectroscopy and near-infrared speckle
  interferometry of the massive young stellar object candidate V645 Cyg,
  acquired to refine its fundamental parameters and the properties of
  its circumstellar envelope. <BR />Methods: Speckle interferometry in
  the H- and K-bands and an optical spectrum in the range 5200-6680 Å
  with a spectral resolving power of R = 60 000 were obtained at the
  6 m telescope of the Russian Academy of Sciences. Another optical
  spectrum in the range 4300-10 500 Å with R = 79 000 was obtained at
  the 3.6 m CFHT. Low-resolution spectra in the ranges 0.46-1.4 μm and
  1.4-2.5 μm with R ~ 800 and ~700, respectively, were obtained at the
  3 m Shane telescope of the Lick Observatory. <BR />Results: Using
  a novel kinematical method based on the non-linear modeling of the
  neutral hydrogen density profile in the direction toward the object,
  we propose a distance of D = 4.2 ± 0.2 kpc. We also suggest a revised
  estimate of the star's effective temperature, T_eff ~ 25 000 K. We
  resolved the object in both H- and K-bands. Using a two-component ring
  fit, we derived a compact component size of 14 mas and 12 mas in the
  H- and K-band, respectively, which correspond to 29 and 26 AU at the
  revised distance. Analysis of our own and previously published data
  indicates a ~2 mag decrease in the near-infrared brightness of V645
  Cyg at the beginning of the 1980's. At the same time, the cometary
  nebular condensation N1 appears to fade in this wavelength range with
  respect to the N0 object, representing the star with a nearly pole-on
  optically-thick disk and an optically-thin envelope. <BR />Conclusions:
  We conclude that V645 Cyg is a young, massive, main-sequence star,
  which recently emerged from its cocoon and has already experienced
  its protostellar accretion stage. The presence of accretion is not
  necessary to account for the high observed luminosity of (2-6) ×
  10<SUP>4</SUP> M<SUB>⊙</SUB> yr<SUP>-1</SUP>. The receding part
  of a strong, mostly uniform outflow with a terminal velocity of
  ~800 km s<SUP>-1</SUP> is only blocked from view far from the star,
  where forbidden lines form. The near-infrared size of the source is
  consistent with the dust sublimation distance close to this hot and
  luminous star and is the largest among all young stellar objects
  observed interferometrically to-date. <P />Partially based on data
  obtained at the 6-m BTA telescope of the Russian Academy of Sciences,
  3.6-m Canada-France-Hawaii telescope, and 3-m Shane telescope of the
  Lick Observatory.

---------------------------------------------------------
Title: Tracing the young massive high-eccentricity binary system
    θ^1Orionis C through periastron passage
Authors: Kraus, S.; Weigelt, G.; Balega, Y. Y.; Docobo, J. A.; Hofmann,
   K. -H.; Preibisch, T.; Schertl, D.; Tamazian, V. S.; Driebe, T.;
   Ohnaka, K.; Petrov, R.; Schöller, M.; Smith, M.
2009A&A...497..195K    Altcode: 2009arXiv0902.0365K
  Context: The nearby high-mass star binary system θ^1Ori C is the
  brightest and most massive of the Trapezium OB stars at the core of
  the Orion Nebula Cluster, and it represents a perfect laboratory
  to determine the fundamental parameters of young hot stars and to
  constrain the distance of the Orion Trapezium Cluster. <BR />Aims: By
  tracing the orbital motion of the θ^1Ori C components, we aim to refine
  the dynamical orbit of this important binary system. <BR />Methods:
  Between January 2007 and March 2008, we observed θ^1Ori C with
  VLTI/AMBER near-infrared (H- and K-band) long-baseline interferometry,
  as well as with bispectrum speckle interferometry with the ESO 3.6 m
  and the BTA 6 m telescopes (B'- and V'-band). Combining AMBER data
  taken with three different 3-telescope array configurations, we
  reconstructed the first VLTI/AMBER closure-phase aperture synthesis
  image, showing the θ^1Ori C system with a resolution of ∼ 2 mas. To
  extract the astrometric data from our spectrally dispersed AMBER data,
  we employed a new algorithm, which fits the wavelength-differential
  visibility and closure phase modulations along the H- and K-band
  and is insensitive to calibration errors induced, for instance, by
  changing atmospheric conditions. <BR />Results: Our new astrometric
  measurements show that the companion has nearly completed one orbital
  revolution since its discovery in 1997. The derived orbital elements
  imply a short-period (P ≈ 11.3 yr) and high-eccentricity orbit
  (e ≈ 0.6) with periastron passage around 2002.6. The new orbit
  is consistent with recently published radial velocity measurements,
  from which we can also derive the first direct constraints on the mass
  ratio of the binary components. We employ various methods to derive
  the system mass (M_system = 44 ± 7 M<SUB>⊙</SUB>) and the dynamical
  distance (d = 410 ± 20 pc), which is in remarkably good agreement
  with recently published trigonometric parallax measurements obtained
  with radio interferometry. <P />Based on observations <P />made with
  ESO telescopes at the La Silla Paranal Observatory under the OT and
  VISA-MPG GTO <P />programme IDs 078.C-0360(A), 080.C-0541(A,B,C,D),
  080.D-0225(B), and 080.C-0388(A).

---------------------------------------------------------
Title: Resolving the dusty torus and the mystery surrounding LMC
    red supergiant WOH G64
Authors: Ohnaka, Keiichi; Driebe, Thomas; Hofmann, Karl-Heinz; Weigelt,
   Gerd; Wittkowski, Markus
2009IAUS..256..454O    Altcode:
  We present mid-IR long-baseline interferometric observations of the red
  supergiant WOH G64 in the Large Magellanic Cloud with MIDI at the ESO's
  Very Large Telescope Interferometer (VLTI). Our MIDI observations of WOH
  G64 are the first VLTI observations to spatially resolve an individual
  stellar source in an extragalactic system. Our 2-D radiative transfer
  modeling reveals the presence of a geometrically and optically thick
  torus seen nearly pole-on. This model brings WOH G64 in much better
  agreement with the current evolutionary tracks for a 25 M<SUB>⊙</SUB>
  star — about a half of the previous estimate of 40 M<SUB>⊙</SUB>
  — and solves the serious discrepancy between theory and observation
  which existed for this object.

---------------------------------------------------------
Title: Wolf-Rayet Stars at the Highest Angular Resolution
Authors: Millour, Florentin; Chesneau, Olivier; Driebe, Thomas; Matter,
   Alexis; Schmutz, Werner; Lopez, Bruno; Petrov, Romain G.; Groh, José
   H.; Bonneau, Daniel; Dessart, Luc; Hofmann, Karl-Heinz; Weigelt, Gerd
2009Msngr.135...26M    Altcode:
  Interferometric observations of high-mass evolved stars provide new and
  very valuable information of their nature. With the unique capabilities
  of the VLTI, direct images of their closest environment where mass
  loss and dust formation occur, can be obtained. The breakthrough of
  the VLTI in terms of angular resolution as well as spectral resolution
  allows competing theoretical models, based on indirect constraints,
  to be tested. The high angular resolution made available by the VLTI
  shows that there is still a lot to discover about these massive stars.

---------------------------------------------------------
Title: MATISSE Science Cases
Authors: Wolf, S.; Lopez, B.; Jaffe, W.; Weigelt, G.; Augereau,
   J. -Ch.; Berruyer, N.; Chesneau, O.; Danchi, W. C.; Delbo, M.; Demyk,
   K.; Domiciano, A.; Henning, Th.; Hofmann, K. -H.; Kraus, S.; Leinert,
   Ch.; Linz, H.; Mathias, Ph.; Meisenheimer, K.; Menut, J. -L.; Millour,
   F.; Mosoni, L.; Niedzielski, A.; Petrov, R.; Ratzka, Th.; Stecklum,
   B.; Thiebaut, E.; Vakili, F.; Waters, L. B. F. M.; Absil, O.; Hron,
   J.; Lagarde, S.; Matter, A.; Nardetto, N.; Olofsson, J.; Valat, B.;
   Vannier, M.
2009ASSP....9..359W    Altcode: 2009svlt.conf..359W
  MATISSE is foreseen as a mid-infrared spectro-interferometric instrument
  combining the beams of up to four UTs/ATs of the Very Large Telescope
  Interferometer (VLTI). MATISSE will measure closure phase relations
  and thus offer an efficient capability for image reconstruction. In
  addition to this, MATISSE will open 2 new observing windows at the VLTI:
  the L and M band in addition to the N band. Furthermore, the instrument
  will offer the possibility to perform simultaneous observations in
  separate bands. MATISSE will also provide several spectroscopic
  modes. In summary, MATISSE can be seen as a successor of MIDI by
  providing imaging capabilities in the mid-infrared domain (for a more
  detailed description of MATISSE see Lopez et al., these proceedings).

---------------------------------------------------------
Title: First IR-interferometric Study Of The Physical Properties Of
    The Supergiant IRS 7 In The Particular Environment Of The Galactic
    Center.
Authors: Pott, Jorg-Uwe; Ghez, A.; Weigelt, G.; Woillez, J.;
   Wizinowich, P.
2009AAS...21320407P    Altcode: 2009BAAS...41..267P
  The first successful observations with an optical long baseline
  interferometer of a supergiant in the Galactic center will be
  presented. GCIRS 7 is resolved by the VLTI baselines at 2 and
  10microns. Its interaction with its particular environment can be
  studied. The unique L-band capabilities of the Keck interferometer
  promise to give further insights in the life of a star under influence
  of a supermassive black hole.

---------------------------------------------------------
Title: Milli-arcsecond Astrophysics with VSI, the VLTI Spectro-imager
    in the ELT Era
Authors: Malbet, F.; Buscher, D.; Weigelt, G.; Garcia, P.; Gai, M.;
   Lorenzetti, D.; Surdej, J.; Hron, J.; Neuhäuser, R.; Kern, P.; Jocou,
   L.; Berger, J. -P.; Absil, O.; Beckmann, U.; Corcione, L.; Duvert,
   G.; Filho, M.; Labeye, P.; Le Coarer, E.; Li Causi, G.; Lima, J.;
   Perraut, K.; Tatulli, E.; Thiébaut, E.; Young, J.; Zins, G.; Amorim,
   A.; Aringer, B.; Beckert, T.; Benisty, M.; Bonfils, X.; Chelli, A.;
   Chesneau, O.; Chiavassa, A.; Corradi, R.; de Becker, M.; Delboulbé,
   A.; Duchêne, G.; Forveille, T.; Haniff, C.; Herwats, E.; Hofmann,
   K. -H.; Le Bouquin, J. -B.; Ligori, S.; Loreggia, D.; Marconi, A.;
   Moitinho, A.; Nisini, B.; Petrucci, P. -O.; Rebordao, J.; Speziali,
   R.; Testi, L.; Vitali, F.
2009ASSP....9..343M    Altcode: 2008arXiv0801.2694M; 2009svlt.conf..343M
  Nowadays, compact sources relatively warm like surfaces of nearby
  stars, circumstellar environments of stars from early stages to
  the most evolved ones and surroundings of active galactic nuclei
  can be investigated at milli-arcsecond scales only with the VLT in
  its interferometric mode. We propose a spectro-imager, named VSI
  (VLTI spectro-imager), which is capable to probe these sources both
  over spatial and spectral scales in the near-infrared domain. This
  instrument will provide information complementary to what is obtained
  at the same time with ALMA at different wavelengths and the extreme
  large telescopes.

---------------------------------------------------------
Title: Possible evidence for a common radial structure in nearby
    AGN tori
Authors: Kishimoto, M.; Hönig, S. F.; Tristram, K. R. W.; Weigelt, G.
2009A&A...493L..57K    Altcode: 2008arXiv0812.1964K
  We present a quantitative and relatively model-independent way to
  assess the radial structure of nearby AGN tori. These putative tori
  have been studied with long-baseline infrared (IR) interferometry, but
  the spatial scales probed are different for different objects. They
  are at various distances and also have different physical sizes that
  apparently scale with the luminosity of the central engine. Here we look
  at interferometric size information, or visibilities, as a function
  of spatial scales normalized by the size of the inner torus radiu
  R_in. This approximately eliminates luminosity and distance dependence
  and, thus, provides a way to uniformly view the visibilities observed
  for various objects and at different wavelengths. We can construct
  a composite visibility curve over a wide range of spatial scales
  if different tori share a common radial structure. The currently
  available observations do suggest, independent of models, a common
  radial surface brightness distribution in the mid-IR that is roughly of
  a power-law form r<SUP>-2</SUP> as a function of radius r and extends
  to ~100 times R_in. Taking into account the temperature decrease toward
  outer radii with a simple torus model, this corresponds to the radial
  surface density distribution of dusty material directly illuminated
  by the central engine roughly in the range between r<SUP>0</SUP>
  and r<SUP>-1</SUP>. This should be tested with further data.

---------------------------------------------------------
Title: VLTI-AMBER Observations of η Carinae with High Spatial
    Resolution and Spectral Resolutions of λ/Δλ=1500 and 12
    000<SUP>*</SUP>
Authors: Weigelt, G.; Kraus, S.; Driebe, T.; Hofmann, K. -H.; Millour,
   F.; Petrov, R.; Schertl, D.; Chesneau, O.; Davidson, K.; Domiciano
   de Souza, A.; Gull, T.; Hillier, J. D.; Malbet, F.; Rantakyrö, F.;
   Richichi, A.; Schöller, M.; Wittkowski, M.
2009ASSP....9..107W    Altcode: 2009svlt.conf..107W
  We report spectro-interferometric observations of the Luminous Blue
  Variable (LBV) η Car using the AMBER instrument of ESO's Very Large
  Telescope Interferometer (VLTI) 1. The observations around the He I
  2.059 μm and the Brγ 2.166 μm emission lines allow us to investigate
  the wavelength dependence of the visibility, differential phase, and
  closure phase of η Car's stellar wind region. If we fit visibility
  profiles derived from Hillier et al. models 2 to the AMBER visibilities,
  we obtain 50% encircled-energy diameters of 4.3, 6.5, and 9.6 mas
  in the 2.17 μm continuum, the He I, and the Brγ emission lines,
  respectively. For the interpretation of the non-zero differential and
  closure phases measured within the Brγ line, we developed a simple
  wind model. Our observations support theoretical models of winds from
  fast-rotating, luminous hot stars.

---------------------------------------------------------
Title: Matisse
Authors: Lopez, B.; Lagarde, S.; Wolf, S.; Jaffe, W.; Weigelt, G.;
   Antonelli, P.; Abraham, P.; Augereau, J. -Ch.; Beckman, U.; Behrend,
   J.; Berruyer, N.; Bresson, Y.; Chesneau, O.; Clausse, J. M.; Connot,
   C.; Danchi, W. C.; Delbo, M.; Demyk, K.; Domiciano, A.; Dugué, M.;
   Glazenborg, A.; Graser, U.; Hanenburg, H.; Henning, Th.; Heininger,
   M.; Hofmann, K. -H.; Hugues, Y.; Jankov, S.; Kraus, S.; Laun, W.;
   Leinert, Ch.; Linz, H.; Matter, A.; Mathias, Ph.; Meisenheimer, K.;
   Menut, J. -L.; Millour, F.; Mosoni, L.; Neumann, U.; Niedzielski, A.;
   Nussbaum, E.; Petrov, R.; Ratzka, Th.; Robbe-Dubois, S.; Roussel, A.;
   Schertl, D.; Schmider, F. -X.; Stecklum, B.; Thiebaut, E.; Vakili,
   F.; Wagner, K.; Waters, L. B. F. M.; Absil, O.; Hron, J.; Nardetto,
   N.; Olofsson, J.; Valat, B.; Vannier, M.; Goldman, B.; Hönig, S.;
   Cotton, W. D.
2009ASSP....9..353L    Altcode: 2009svlt.conf..353L
  MATISSE is foreseen as a mid-infrared spectro-interferometer
  combining the beams of up to four UTs/ATs of the Very Large Telescope
  Interferometer (VLTI). MATISSE will measure closure phase relations and
  thus offer an efficient capability for image reconstruction in the L,
  M and N bands of the mid-infrared domain.

---------------------------------------------------------
Title: A Mid-infrared Interferometric Study of the Circumstellar
    Environment of Dusty OH/IR Stars with VLTI/MIDI
Authors: Driebe, T.; Ohnaka, K.; Murakawa, K.; Hofmann, K. -H.;
   Schertl, D.; Weigelt, G.; Verhoelst, T.; Chesneau, O.; Domiciano de
   Souza, A.; Riechers, D.; Schöller, M.; Wittkowski, M.
2009ASSP....9..125D    Altcode: 2009svlt.conf..125D
  OH/IR stars are evolved stars exhibiting large infrared excess as well
  as prominent OH maser emission. The vast majority of this heterogeneous
  object class are highly-evolved low- and intermediate-mass stars
  ascending the upper part of the asymptotic giant branch (AGB). Thus,
  these stars are in the final phase of their AGB evolution which
  is characterized by intensive mass loss with mass-loss rates that
  can reach up to 10<SUP>-4</SUP> M<SUB>⊙</SUB>. This high mass
  loss leads to the development of an extended, usually optically
  thick dusty circumstellar envelope which can be well studied with
  infrared-interferometric observations.

---------------------------------------------------------
Title: Multi-epoch VLTI/MIDI Observations of the Carbon-rich Mira
    Star V Oph
Authors: Ohnaka, K.; Driebe, T.; Weigelt, G.; Wittkowski, M.
2009ASSP....9..119O    Altcode: 2009svlt.conf..119O
  The driving mechanism of mass outflows in Mira variables has not
  yet been fully understood. Recent progress in optical and infrared
  interferometric techniques has been contributing to studies of the
  region between the top of the photosphere and the innermost region of
  the circumstellar dust shell, exactly where mass outflows are expected
  to be initiated. Infrared interferometric observations of oxygen-rich
  Mira stars have spatially resolved dense, warm (∼1000-2000 K)
  molecular layers consisting of H<SUB>2</SUB>O, SiO, and CO and
  extending to ∼2-3 R<SUB> ⋆ </SUB> (e.g., Mennesson et al. 1;
  Perrin et al. 6; Ohnaka et al. 4). The optically thick emission from
  the warm molecular layers affect the apparent size of Mira stars: the
  object appears larger than the star itself at wavelengths where the
  opacities of the above molecular species are higher. In particular,
  H<SUB>2</SUB>O has strong spectral features in the mid-infrared,
  which causes the angular size to increase from the near-infrared to
  the mid-infrared as observed toward oxygen-rich Miras.

---------------------------------------------------------
Title: HK-band imaging polarimetry and radiative transfer modeling
    of the massive young stellar object CRL 2136
Authors: Murakawa, K.; Preibisch, T.; Kraus, S.; Weigelt, G.
2008A&A...490..673M    Altcode:
  Aims: We investigate the physical properties of the dust environment of
  the massive proto-stellar object CRL 2136 by means of two-dimensional
  radiative transfer modeling, which combines fitting of the spectral
  energy distribution, the intensity images, and the polarization
  images. <BR />Methods: We obtained polarimetric images of CRL 2136
  in the H and K bands using the CIAO instrument on the 8 m Subaru
  telescope. We developed a new Monte Carlo code which can deal with
  multiple-grain models and computes the SED, the dust temperature, and
  the Stokes IQUV images. With this code, we performed two-dimensional
  modeling of CRL 2136's circumstellar disk and envelope. <BR />Results:
  Our images show a compact infrared source, two bright lobes extending
  towards the south and east, and two faint lobes extending towards the
  northwest and west. The polarization images show a polarization disk
  near the central star with a position angle of ~ -135°, a polarization
  vector alignment approximately parallel to the polarization disk, and
  a region with low polarization between the eastern and the southern
  lobes. In our modeling, we assume three grain models: bare grains,
  warm grains with a crystalline water ice mantle, and cold grains with
  an amorphous water ice mantle. We obtained a maximum grain core size of
  0.45 μm. We found that the CRL 2136 disk has a low disk mass of 0.007
  M<SUB>⊙</SUB>, a large radius of 2000 AU, a scale height of 1.0,
  and a low accretion rate of 2.1 × 10<SUP>-7</SUP> M<SUB>⊙</SUB>
  yr<SUP>-1</SUP> compared to an envelope mass infall rate of 1.0 ×
  10<SUP>-4</SUP> M<SUB>⊙</SUB> yr<SUP>-1</SUP>. <BR />Conclusions: The
  predicted environment of the disk and the envelope is consistent with a
  scenario in which the central star forms rapidly (~ 2 × 10<SUP>5</SUP>
  yr), with a high mass infalling rate, and nearly isotropically (large
  disk scale height) in the early phase. Then, the accretion of the disk
  matter is prevented by the strong radiation pressure from the luminous
  central star, resulting in a low disk mass and a low accretion rate.

---------------------------------------------------------
Title: Near-IR bispectrum speckle interferometry, AO imaging
    polarimetry, and radiative transfer modeling of the proto-planetary
    nebula Frosty Leonis
Authors: Murakawa, K.; Ohnaka, K.; Driebe, T.; Hofmann, K. -H.; Oya,
   S.; Schertl, D.; Weigelt, G.
2008A&A...489..195M    Altcode:
  Aims: We combined bispectrum speckle interferometry, adaptive optics
  (AO) imaging polarimetry, and radiative transfer modeling of polarized
  light to derive various physical properties of the proto-planetary
  nebula Frosty Leo. <BR />Methods: We performed bispectrum K'-band
  speckle interferometry and H- and K-band imaging polarimetry of
  Frosty Leo using the ESO 3.6 m telescope and the AO-equipped CIAO
  instrument of the 8 m Subaru telescope, respectively. Two-dimensional
  radiative transfer modeling was carried out in order to obtain a
  quantitative interpretation of our observations. <BR />Results: Our
  diffraction-limited speckle image shows distinct hourglass-shaped,
  point-symmetric bipolar lobes, an equatorial dust lane, and complex
  clumpy structures in the lobes. Our polarimetric data display a
  centro-symmetric polarization vector pattern with P~30-50% in the
  bipolar lobes and a polarization disk between them. The polarization
  images also reveal an elongated region with low polarization along
  a position angle of -45°. The observations suggest that this region
  has a low dust density and was carved out by a jet-like outflow. Our
  radiative transfer modeling can simultaneously explain the observed
  spectral energy distribution, the intensity distribution of the
  hourglass-shaped lobes, and our polarization images if we use two grain
  species with sizes of 0.005 ≤ a ≤ 2.0 μm at latitudes between -2°
  and +2°, and 0.005 ≤ a ≤ 0.7 μm in the bipolar lobes. Assuming
  a distance of 3 kpc, an expansion velocity of 25 km s<SUP>-1</SUP>,
  and a gas-to-dust mass ratio of 160, we derive a dust mass of the
  disk of 2.85×10<SUP>-3</SUP> M<SUB>⊙</SUB>, a gas mass-loss rate
  of 8.97×10<SUP>-3</SUP> M<SUB>⊙</SUB> yr<SUP>-1</SUP>, and a total
  envelope mass of 4.23 M<SUB>⊙</SUB>.

---------------------------------------------------------
Title: Asymmetric silicate dust distribution toward the silicate
    carbon star BM Geminorum
Authors: Ohnaka, K.; Izumiura, H.; Leinert, Ch.; Driebe, T.; Weigelt,
   G.; Wittkowski, M.
2008A&A...490..173O    Altcode: 2008arXiv0807.3342O
  Context: Despite their carbon-rich photospheres, silicate carbon
  stars show 10 μm silicate emission. They are considered to have
  circumbinary or circum-companion disks, which serve as a reservoir
  of oxygen-rich material shed by mass loss in the past. <BR />Aims:
  We present N-band spectro-interferometric observations of the silicate
  carbon star BM Gem using MIDI at the Very Large Telescope Interferometer
  (VLTI). Our aim is to probe the spatial distribution of oxygen-rich
  dust at high spatial resolution. <BR />Methods: Using the UT2-UT3 and
  UT3-UT4 configurations, BM Gem was observed with VLTI/MIDI at 44-62
  m baselines. <BR />Results: The N-band visibilities observed for BM
  Gem decrease steeply between 8 and ~10 μm and increase gradually
  longward of ~10 μm, reflecting the optically thin silicate emission
  feature emanating from sub-micron-sized amorphous silicate grains. The
  differential phases obtained at baselines of ~44-46 m show significant
  non-zero values (∼ -70°) in the central part of the silicate emission
  feature between ~9 and 11 μm, revealing a photocenter shift and the
  asymmetric nature of the silicate emitting region. The observed N-band
  visibilities and differential phases can be described adequately by a
  simple geometrical model in which the unresolved star is surrounded
  by a ring with azimuthal brightness modulation. The best-fit model
  is characterized by a broad ring (~70 mas across at 10 μm) with
  a bright region offset from the unresolved star by ~20 mas at a
  position angle of ~280°. This model can be interpreted as a system
  with a circum-companion disk and is consistent with the spectroscopic
  signatures of an accretion disk around an unseen companion, which were
  discovered in the violet spectrum of BM Gem. <P />Based on observations
  made with the Very Large Telescope Interferometer of the European
  Southern Observatory. Program ID: 078.D-0292.

---------------------------------------------------------
Title: VizieR Online Data Catalog: Speckle interferometry of nearby
    multiples (Balega+, 2007)
Authors: Balega, I. I.; Balega, Yu. Yu.; Maksimov, A. F.; Malogolovets,
   E. V.; Rastegaev, D. A.; Shkhagosheva, Z. U.; Weigelt, G.
2008yCatp033006203B    Altcode:
  The results of speckle interferometric observations of 104 binary
  and 6 triple stars performed at the BTA 6m telescope in 2004 October
  are presented. Nearby low-mass stars are mostly observed for the
  program, among which 59 there are new binaries recently discovered
  by the Hipparcos astrometric satellite. Concurrently with the
  diffraction-limited position measurements we obtained 154 brightness
  ratio measurements of binary and multiple star components in different
  bands of the visible spectrum. New, first-resolved binaries are the
  symbiotic star CH Cyg with a weak companion at 0.043" separation and
  the pair of red dwarfs, GJ 913 = HIP 118212. In addition, we derived
  the orbital parameters for two interferometric systems: the CN-giant
  pair HD 210211 = HIP 109281 (P=10.7yr) and the G2V-K2V G2V-K2V binary
  GJ 9830 = HIP 116259 (P=15.7yr). <P />(2 data files).

---------------------------------------------------------
Title: The origin of hydrogen line emission for five Herbig Ae/Be
    stars spatially resolved by VLTI/AMBER spectro-interferometry
Authors: Kraus, S.; Hofmann, K. -H.; Benisty, M.; Berger, J. -P.;
   Chesneau, O.; Isella, A.; Malbet, F.; Meilland, A.; Nardetto, N.;
   Natta, A.; Preibisch, T.; Schertl, D.; Smith, M.; Stee, P.; Tatulli,
   E.; Testi, L.; Weigelt, G.
2008A&A...489.1157K    Altcode: 2008arXiv0807.1119K
  Context: Accretion and outflow processes are of fundamental
  importance for our understanding of the formation of stars and
  planetary systems. To trace these processes, diagnostic spectral
  lines such as the Brγ 2.166 μm line are widely used, although due
  to a lack of spatial resolution, the origin of the line emission is
  still unclear. <BR />Aims: Employing the AU-scale spatial resolution
  which can be achieved with infrared long-baseline interferometry,
  we aim to distinguish between theoretical models which associate
  the Brγ line emission with mass infall (magnetospheric accretion,
  gaseous inner disks) or mass outflow processes (stellar winds, X-winds,
  or disk winds). <BR />Methods: Using the VLTI/AMBER instrument, we
  spatially and spectrally (λ/Δλ = 1500) resolved the inner (⪉5
  AU) environment of five Herbig Ae/Be stars (HD 163296, HD 104237,
  HD 98922, MWC 297, V921 Sco) in the Brγ emission line as well as
  in the adjacent continuum. From the measured wavelength-dependent
  visibilities, we derive the characteristic size of the continuum and
  Brγ line-emitting region. Additional information is provided by the
  closure phase, which we could measure both in the continuum wavelength
  regime (for four objects) as well as in the spectrally resolved
  Brγ emission line (for one object). The spectro-interferometric
  data is supplemented by archival and new VLT/ISAAC spectroscopy. <BR
  />Results: For all objects (except MWC 297), we measure an increase
  of visibility within the Brγ emission line, indicating that the
  Brγ-emitting region in these objects is more compact than the dust
  sublimation radius. For HD 98922, our quantitative analysis reveals
  that the line-emitting region is compact enough to be consistent
  with the magnetospheric accretion scenario. For HD 163296, HD 104237,
  MWC 297, and V921 Sco we identify an extended stellar wind or a disk
  wind as the most likely line-emitting mechanism. Since the stars in
  our sample cover a wide range of stellar parameters, we also search
  for general trends and find that the size of the Brγ-emitting region
  does not seem to depend on the basic stellar parameters (such as the
  stellar luminosity), but correlates with spectroscopic properties,
  in particular with the Hα line profile shape. <BR />Conclusions: By
  performing the first high-resolution spectro-interferometric survey
  on Herbig Ae/Be stars, we find evidence for at least two distinct Brγ
  line-formation mechanisms. Most significant, stars with a P-Cygni Hα
  line profile and a high mass-accretion rate seem to show particularly
  compact Brγ-emitting regions (R<SUB>Brγ</SUB>/R<SUB>cont</SUB>
  &lt; 0.2), while stars with a double-peaked or single-peaked Hα-line
  profile show a significantly more extended Brγ-emitting region (0.6
  ⪉ R<SUB>Brγ</SUB>/R<SUB>cont</SUB> ⪉ 1.4), possibly tracing
  a stellar wind or a disk wind. <P />Based on observations <P />made
  with ESO telescopes at the La Silla Paranal Observatory under open <P
  />time programme IDs 077.C-0694, 078.C-0360, and 078.C-0680.

---------------------------------------------------------
Title: VLT/NACO and Subaru/CIAO JHK-band high-resolution imaging
    polarimetry of the Herbig Be star R Monocerotis
Authors: Murakawa, K.; Preibisch, T.; Kraus, S.; Ageorges, N.; Hofmann,
   K. -H.; Ishii, M.; Oya, S.; Rosen, A.; Schertl, D.; Weigelt, G.
2008A&A...488L..75M    Altcode:
  Aims: We investigate the dust properties of the disk and envelope of
  the Herbig Be star R Mon by means of near-infrared multiwavelength
  imaging polarimetry. <BR />Methods: We obtained JHK-band polarimetric
  images using the adaptive optics instruments NACO on the VLT, and CIAO
  on the Subaru telescope. <BR />Results: Our NACO JK_S-band images of
  ~0.1 arcsec angular resolution resolve clearly the R Mon binary system
  as well as twisted string-like features in the fan-shaped lobe. The
  polarimetric images reveal a butterfly-shaped polarization disk with
  an almost constant shape and an extension of 4 arcsec in the J, H,
  and K bands. In this region, the polarization values are as low as
  P_J∼7%, P_H∼2%, and P_K∼1%, and the polarization vectors are not
  systematically aligned along the equatorial plane. On the other hand,
  highly polarized scattered light is detected in the fan-shaped lobe
  (P<SUB>J</SUB> ∼24%, P<SUB>H</SUB> ∼ 33%, and P_K∼53%). <BR
  />Conclusions: Our polarimetric data suggests the presence of multiple
  grain populations in the R Mon nebula. From our one-dimensional single
  scattering modeling, the maximum grain size in the nebula at large
  scale is estimated to be 0.23 μm. On the other hand, the aforementioned
  properties of the polarization disk and a nearly spherical appearance
  of the nebulosity close to the central star suggests the presence of
  large grains (micron-size or larger) in the polarization disk.

---------------------------------------------------------
Title: First VLTI infrared spectro-interferometry on GCIRS
    7. Characterizing the prime reference source for Galactic center
    observations at highest angular resolution
Authors: Pott, J. -U.; Eckart, A.; Glindemann, A.; Kraus, S.; Schödel,
   R.; Ghez, A. M.; Woillez, J.; Weigelt, G.
2008A&A...487..413P    Altcode: 2008arXiv0805.4408P
  Context: The massive black hole Sgr A* at the very center of the
  Galaxy, and its immediate stellar and non-stellar environment,
  have been studied in the past decade with increasing intensity and
  wavelength coverage, revealing surprising results. This research
  requires the highest angular resolution available to avoid source
  confusion and to study the physical properties of the objects. <BR
  />Aims: GCIRS 7 is the dominating star of the central cluster in the
  NIR, so it has been used as wavefront and astrometric reference. Our
  studies investigate, for the first time, its properties at 2 and 10
  μm using the VLTI. We aim at analyzing the suitability of GCIRS 7
  as an interferometric phase-reference for the upcoming generation
  of dual-field facilities at optical interferometers. <BR />Methods:
  VLTI-AMBER and MIDI instruments were used to spatially resolve GCIRS
  7 and to measure the wavelength dependence of the visibility using the
  low spectral resolution mode (λ / Δ λ ≈ 30) and projected baseline
  lengths of about 50 m, resulting in an angular resolution of about
  9 mas and 45 mas for the NIR and MIR, respectively. <BR />Results:
  The first K-band fringe detection of a GC star suggests that GCIRS 7
  could be marginally resolved at 2 micron, which would imply that the
  photosphere of the supergiant is enshrouded by a molecular and dusty
  envelope. At 10 μm, GCIRS 7 is strongly resolved with a visibility of
  approximately 0.2. The MIR is dominated by moderately warm (200 K),
  extended dust, mostly distributed outside of a radius of about 120
  AU (15 mas) around the star. A deep 9.8 μm-silicate absorption in
  excess of the usual extinction law with respect to the NIR extinction
  has been found. <BR />Conclusions: Our VLTI observations show that
  interferometric NIR phase-referencing experiments with mas resolution
  using GCIRS 7 as phase reference appear to be feasible, but more such
  studies are required to definitely characterize the close environment
  around this star. The MIR data confirm recent findings of a relatively
  enhanced, interstellar 9.8 μm-silicate absorption with respect to
  the NIR extinction towards another star in the central arc-seconds,
  suggesting an unusual dust composition in that region. We demonstrate
  that the resolution and sensitivity of modern large-aperture optical
  telescope arrays is required to resolve the innermost environment of
  stars at the Galactic center. <P />Based on observations collected
  at the European Southern <P />Observatory, Paranal, Chile (programs
  076.B-0863, 077.D-0709).

---------------------------------------------------------
Title: The structure of the Winds of Eta Carinae as seen by HST/STIS
    and VLTI/AMBER
Authors: Nielsen, K. E.; Weigelt, G.; Gull, T. R.; Corcoran, M. F.;
   Driebe, T.; Kraus, S.; Hamaguchi, K.; Hillier, D. J.
2008RMxAC..33..136N    Altcode:
  Eta Carinae (η Car) is currently understood to be a massive binary,
  within an extended wind, engulfed by its ejecta.

---------------------------------------------------------
Title: Probing the dusty environment of the Seyfert 1 nucleus in
    NGC 3783 with MIDI/VLTI interferometry
Authors: Beckert, T.; Driebe, T.; Hönig, S. F.; Weigelt, G.
2008A&A...486L..17B    Altcode: 2008arXiv0806.0531B
  Aims: We present mid-IR spectro-interferometry of the Seyfert type
  1 nucleus of <ASTROBJ>NGC 3783</ASTROBJ>. The dusty circumnuclear
  environment is spatially resolved and the wavelength dependence of
  the compact emission is discussed. <BR />Methods: The observations
  were carried out with the MIDI instrument at the Very Large Telescope
  Interferometer in the N-band. Spectra and visibilities were derived
  with a spectral resolution of λ/Δλ ~ 30 in the wavelength range
  from 8 to 13 μm. For the interpretation we developed a simple dusty
  disk model with a small and variable covering factor. <BR />Results:
  At baselines of 65 and 69 m, visibilities in the range of 0.4 to
  0.7 were measured. The N-band spectra show a monotonic increase of
  the measured flux with wavelength with no apparent silicate feature
  around 10 μm. We find that the mid-IR emission from the nucleus can
  be reproduced by an extended dust disk or torus with a small covering
  factor of the radiating dust clouds. <BR />Conclusions: Our mid-IR
  observations of NGC 3783 are consistent with a clumpy circumnuclear
  dust environment. The interpretation in terms of a dusty torus with
  a low covering factor supports a clumpy version of the unified scheme
  for AGN. The inferred sizes and luminosities are in good agreement with
  dust reverberation sizes and bolometric luminosities from optical and
  X-ray observations.

---------------------------------------------------------
Title: VSI: the VLTI spectro-imager
Authors: Malbet, F.; Buscher, D.; Weigelt, G.; Garcia, P.; Gai, M.;
   Lorenzetti, D.; Surdej, J.; Hron, J.; Neuhäuser, R.; Kern, P.; Jocou,
   L.; Berger, J. -P.; Absil, O.; Beckmann, U.; Corcione, L.; Duvert,
   G.; Filho, M.; Labeye, P.; Le Coarer, E.; Li Causi, G.; Lima, J.;
   Perraut, K.; Tatulli, E.; Thiébaut, E.; Young, J.; Zins, G.; Amorim,
   A.; Aringer, B.; Beckert, T.; Benisty, M.; Bonfils, X.; Cabral, A.;
   Chelli, A.; Chesneau, O.; Chiavassa, A.; Corradi, R.; De Becker, M.;
   Delboulbé, A.; Duchêne, G.; Forveille, T.; Haniff, C.; Herwats,
   E.; Hofmann, K. -H.; Le Bouquin, J. -B.; Ligori, S.; Loreggia, D.;
   Marconi, A.; Moitinho, A.; Nisini, B.; Petrucci, P. -O.; Rebordao,
   J.; Speziali, R.; Testi, L.; Vitali, F.
2008SPIE.7013E..29M    Altcode: 2008SPIE.7013E..68M; 2008arXiv0807.1062M
  The VLTI Spectro Imager (VSI) was proposed as a second-generation
  instrument of the Very Large Telescope Interferometer providing
  the ESO community with spectrally-resolved, near-infrared images
  at angular resolutions down to 1.1 milliarcsecond and spectral
  resolutions up to R = 12000. Targets as faint as K = 13 will be
  imaged without requiring a brighter nearby reference object; fainter
  targets can be accessed if a suitable reference is available. The
  unique combination of high-dynamic-range imaging at high angular
  resolution and high spectral resolution enables a scientific program
  which serves a broad user community and at the same time provides the
  opportunity for breakthroughs in many areas of astrophysics. The high
  level specifications of the instrument are derived from a detailed
  science case based on the capability to obtain, for the first time,
  milliarcsecond-resolution images of a wide range of targets including:
  probing the initial conditions for planet formation in the AU-scale
  environments of young stars; imaging convective cells and other
  phenomena on the surfaces of stars; mapping the chemical and physical
  environments of evolved stars, stellar remnants, and stellar winds;
  and disentangling the central regions of active galactic nuclei and
  supermassive black holes. VSI will provide these new capabilities
  using technologies which have been extensively tested in the past and
  VSI requires little in terms of new infrastructure on the VLTI. At the
  same time, VSI will be able to make maximum use of new infrastructure
  as it becomes available; for example, by combining 4, 6 and eventually
  8 telescopes, enabling rapid imaging through the measurement of up to
  28 visibilities in every wavelength channel within a few minutes. The
  current studies are focused on a 4-telescope version with an upgrade
  to a 6-telescope one. The instrument contains its own fringe tracker
  and tip-tilt control in order to reduce the constraints on the VLTI
  infrastructure and maximize the scientific return.

---------------------------------------------------------
Title: Science case for 1 mas spectro-imagining in the near-infrared
Authors: Garcia, Paulo J. V.; Berger, Jean-Philippe; Marconi,
   Alessandro; Krivov, Alexander; Chiavassa, Andrea; Aringer, Bernard;
   Nisini, Brunella; Defrére, Denis; Mawet, Dimitri; Schertl, Dieter;
   Tatuli, Eric; Thiébaut, Eric; Baron, Fabien; Malbet, Fabien;
   Duchéne, Gaspard; Weigelt, Gerd; Duvert, Gilles; Henri, Gilles;
   Klahr, Hubert; Surdej, Jean; Augereau, Jean-Charles; Claeskens,
   Jean-François; Young, John; Hron, Josef; Perraut, Karine; Hofmann,
   Karl-Heinz; Testi, Leonardo; Cunha, Margarida; Filho, Mercedes;
   De Becker, Michaël; Absil, Olivier; Chesneau, Olivier; Collette,
   Pierre; Petrucci, Pierre-Olivier; Neuhaeuser, Ralph; Corradi, Romano;
   Antón, Sónia; Wolf, Sebastian; Hoenig, Sebastian; Renard, Stephanie;
   Forveille, Thierry; Beckert, Thomas; Lebzelter, Thomas; Harries, Tim;
   Borkowski, Virginie; Bonfils, Xavier
2008SPIE.7013E..4NG    Altcode: 2008SPIE.7013E.146G
  We present the work developed within the science team of the Very
  Large Telescope Interferometer Spectro-Imager (VSI) during the Phase
  A studies. VSI aims at delivering ~ 1 milliarcsecond resolution data
  cubes in the near-infrared, with several spectral resolutions up to
  12 000, by combining up to 8 VLTI telescopes. In the design of an
  instrument, the science case plays a central role by supporting the
  instrument construction decision, defining the top-level requirements
  and balancing design options. The overall science philosophy of VSI was
  that of a general user instrument serving a broad community. The science
  team addressed themes which included several areas of astrophysics
  and illustrated specific modes of operation of the instrument: a)
  YSO disks and winds; b) Multiplicity of young stars; c) Exoplanets;
  d) Debris disks; e) Stellar surface imaging; f) The environments of
  evolved stars; g) AGN tori; h) AGN's Broad Line Region; i) Supermassive
  black-holes; and j) Microlensing. The main conclusions can be summarized
  as follows: a) The accessible targets and related science are extremely
  sensitive to the instrument limiting magnitude; the instrument should be
  optimized for sensitivity and have its own fringe tracker. b) Most of
  the science cases are readily achievable with on-axis fringe tracking,
  off-axis fringe tracking enabling extra science. c) In most targets
  (YSOs, evolved stars and AGNs), the interpretation and analysis of
  circumstellar/nuclear dust morphology requires direct access to the gas
  via spectral resolved studies of emission lines, requiring at least a
  spectral resolution of 2 500. d) To routinely deliver images at the
  required sensitivity, the number of telescopes in determinant, with
  6 telescopes being favored. e) The factorial increase in the number
  of closure phases and visibilities, gained in a single observation,
  makes massive surveys of parameters and related science for the first
  time possible. f) High dynamic range imaging and very high dynamic
  range differential closure phase are possible allowing the study of
  debris disks and characterization of pegasides. g) Spectro-imaging
  in the near-infrared is highly complementary to ALMA, adaptive optics
  and interferometric imaging in the thermal infrared.

---------------------------------------------------------
Title: MATISSE: perspective of imaging in the mid-infrared at the VLTI
Authors: Lopez, B.; Antonelli, P.; Wolf, S.; Lagarde, S.; Jaffe,
   W.; Navarro, R.; Graser, U.; Petrov, R.; Weigelt, G.; Bresson, Y.;
   Hofmann, K. H.; Beckman, U.; Henning, T.; Laun, W.; Leinert, Ch.;
   Kraus, S.; Robbe-Dubois, S.; Vakili, F.; Richichi, A.; Abraham, P.;
   Augereau, J. -C.; Behrend, J.; Berio, Ph.; Berruyer, N.; Chesneau,
   O.; Clausse, J. M.; Connot, C.; Demyk, K.; Danchi, W. C.; Dugué, M.;
   Finger, G.; Flament, S.; Glazenborg, A.; Hannenburg, H.; Heininger,
   M.; Hugues, Y.; Hron, J.; Jankov, S.; Kerschbaum, F.; Kroes, G.; Linz,
   H.; Lizon, J. -L.; Mathias, Ph.; Mathar, R.; Matter, A.; Menut, J. L.;
   Meisenheimer, K.; Millour, F.; Nardetto, N.; Neumann, U.; Nussbaum,
   E.; Niedzielski, A.; Mosoni, L.; Olofsson, J.; Rabbia, Y.; Ratzka, T.;
   Rigal, F.; Roussel, A.; Schertl, D.; Schmider, F. -X.; Stecklum, B.;
   Thiebaut, E.; Vannier, M.; Valat, B.; Wagner, K.; Waters, L. B. F. M.
2008SPIE.7013E..2BL    Altcode: 2008SPIE.7013E..70L
  MATISSE is foreseen as a mid-infrared spectro-interferometer
  combining the beams of up to four UTs/ATs of the Very Large Telescope
  Interferometer (VLTI) of the European Southern Observatory. The
  related science case study demonstrates the enormous capability of a
  new generation mid-infrared beam combiner. MATISSE will constitute
  an evolution of the two-beam interferometric instrument MIDI. MIDI
  is a very successful instrument which offers a perfect combination
  of spectral and angular resolution. New characteristics present in
  MATISSE will give access to the mapping and the distribution of the
  material (typically dust) in the circumstellar environments by using
  a wide mid-infrared band coverage extended to L, M and N spectral
  bands. The four beam combination of MATISSE provides an efficient
  UV-coverage : 6 visibility points are measured in one set and 4 closure
  phase relations which can provide aperture synthesis images in the
  mid-infrared spectral regime.

---------------------------------------------------------
Title: LINC-NIRVANA: the Fizeau interferometer for the Large
    Binocular Telescope
Authors: Herbst, T. M.; Ragazzoni, R.; Eckart, A.; Weigelt, G.
2008SPIE.7013E..26H    Altcode: 2008SPIE.7013E..65H
  LINC-NIRVANA is an innovative imaging interferometer fed by dedicated
  multi-conjugated adaptive optics systems. The instrument combines the
  light of the two, 8.4-meter primary mirrors of the Large Binocular
  Telescope (LBT) on a single focal plane, providing panoramic imagery
  with 23-meter spatial resolution. LINC-NIRVANA is entering its
  final integration phase, with the large adaptive-optics and imaging
  subsystems coming together in the clean room in Heidelberg. Here, we
  report on progress, including insights gained on instrument assembly
  and vibration control.

---------------------------------------------------------
Title: LINC-NIRVANA: achieving 10 mas imagery on the Large Binocular
    Telescope
Authors: Herbst, T. M.; Ragazzoni, R.; Eckart, A.; Weigelt, G.
2008SPIE.7014E..1AH    Altcode: 2008SPIE.7014E..43H
  LINC-NIRVANA is an innovative imaging interferometer fed by dedicated
  multi-conjugated adaptive optics systems. The instrument combines the
  light of the two, 8.4-meter primary mirrors of the Large Binocular
  Telescope (LBT) on a single focal plane, providing panoramic imagery
  with 23-meter spatial resolution. The instrument employs a number of
  innovative technologies, including multi-conjugated adaptive optics,
  state-of-the-art materials, low vibration mechanical coolers,
  active and passive control, and sophisticated software for data
  analysis. LINC-NIRVANA is entering its final integration phase, with
  the large adaptive-optics and imaging subsystems coming together in
  the clean room in Heidelberg. Here, we report on progress, including
  insights gained on integration of large instruments.

---------------------------------------------------------
Title: Wolf-Rayet stars probed by AMBER/VLTI
Authors: Millour, Florentin; Chesneau, Olivier; Driebe, Thomas;
   Petrov, Romain G.; Bonneau, Daniel; Dessart, Luc; Hofmann, Karl-Heinz;
   Weigelt, Gerd
2008SPIE.7013E..0TM    Altcode: 2008arXiv0807.0293M; 2008SPIE.7013E..24M
  Massive stars deeply influence their surroundings by their luminosity
  and the injection of kinetic energy. So far, they have mostly been
  studied with spatially unresolved observations, although evidence of
  geometrical complexity of their wind are numerous. Interferometry
  can provide spatially resolved observations of massive stars
  and their immediate vicinity. Specific geometries (disks, jets,
  latitude-dependent winds) can be probed by this technique. The first
  observation of a Wolf-Rayet (WR) star (γ<SUP>2</SUP> Vel) with the
  AMBER/VLTI instrument yielded to a re-evaluation of its distance and
  an improved characterization of the stellar components, from a very
  limited data-set. This motivated our team to increase the number of WR
  targets observed with AMBER. We present here new preliminary results
  that encompass several spectral types, ranging from early WN to evolved
  dusty WC. We present unpublished data on WR79a, a massive star probably
  at the boundary between the O and Wolf-Rayet type, evidencing some
  Wolf-Rayet broad emission lines from an optically thin wind. We also
  present new data obtained on γ<SUP>2</SUP> Vel that can be compared
  to the up-to-date interferometry-based orbital parameters from North
  et al. (2007). We discuss the presence of a wind-wind collision zone
  in the system and provide preliminary analysis suggesting the presence
  of such a structure in the data. Then, we present data obtained on 2
  dusty Wolf-Rayet stars: WR48a-b and WR118, the latter exhibiting some
  clues of a pinwheel-like structure from the visibility variations.

---------------------------------------------------------
Title: Discovery of a strong Baldwin effect in mid-infrared AGN lines
Authors: Hönig, S. F.; Smette, A.; Beckert, T.; Horst, H.; Duschl,
   W.; Gandhi, P.; Kishimoto, M.; Weigelt, G.
2008A&A...485L..21H    Altcode: 2008arXiv0805.2151H
  We present the discovery of a Baldwin effect in 8 nearby Seyfert
  galaxies for the three most prominent mid-infrared forbidden emission
  lines observable from the ground that are commonly found in AGN,
  [AR III](λ8.99 μm), [S IV](λ10.51 μm), and [Ne II](λ12.81
  μm). The observations were carried out using the VLT/VISIR imager
  and spectrograph at the ESO/Paranal observatory. The bulk of the
  observed line emission originates in the innermost region within a
  diameter of 0.4 arcsec, which corresponds to spatial scales of less
  than 100 pc within the targeted galaxies. The correlation index is
  approximately -0.6 and does not vary significantly for all lines
  studied. To date, this is the strongest anticorrelation that has been
  measured between line equivalent width and continuum luminosity. In
  the case of Circinus, we show that, despite using mid-infrared lines,
  obscuration by either the host galaxy or the circumnuclear dust torus
  might affect the measurement. Given the small observed spatial scales
  from which most of the line emission emanates, it is unclear how
  well these observations agree with the favored “disappearing NLR”
  scenario for the narrow-line Baldwin effect. <P />Based on ESO observing
  programmes 078.B-0303, 080.B-0240, and the DDT program 280.B-5068.

---------------------------------------------------------
Title: Phase closure image reconstruction for future VLTI
    instrumentation
Authors: Filho, Mercedes E.; Renard, Stephanie; Garcia, Paulo; Duvert,
   Gilles; Duchene, Gaspard; Thiebaut, Eric; Young, John; Absil, Olivier;
   Berger, Jean-Phillipe; Beckert, Thomas; Hoenig, Sebastian; Schertl,
   Dieter; Weigelt, Gerd; Testi, Leonardo; Tatuli, Eric; Borkowski,
   Virginie; de Becker, Michaël; Surdej, Jean; Aringer, Bernard;
   Hron, Joseph; Lebzelter, Thomas; Chiavassa, Andrea; Corradi, Romano;
   Harries, Tim
2008SPIE.7013E..3ZF    Altcode: 2008arXiv0810.0549F; 2008SPIE.7013E.123F
  Classically, optical and near-infrared interferometry have relied on
  closure phase techniques to produce images. Such techniques allow us
  to achieve modest dynamic ranges. In order to test the feasibility
  of next generation optical interferometers in the context of the
  VLTI-spectro-imager (VSI), we have embarked on a study of image
  reconstruction and analysis. Our main aim was to test the influence
  of the number of telescopes, observing nights and distribution of
  the visibility points on the quality of the reconstructed images. Our
  results show that observations using six Auxiliary Telescopes (ATs)
  during one complete night yield the best results in general and
  is critical in most science cases; the number of telescopes is the
  determining factor in the image reconstruction outcome. In terms of
  imaging capabilities, an optical, six telescope VLTI-type configuration
  and ~200 meter baseline will achieve 4 mas spatial resolution, which is
  comparable to ALMA and almost 50 times better than JWST will achieve at
  2.2 microns. Our results show that such an instrument will be capable
  of imaging, with unprecedented detail, a plethora of sources, ranging
  from complex stellar surfaces to microlensing events.

---------------------------------------------------------
Title: Phase referencing in optical interferometry
Authors: Filho, Mercedes E.; Garcia, Paulo; Duvert, Gilles; Duchene,
   Gaspard; Thiebaut, Eric; Young, John; Absil, Olivier; Berger,
   Jean-Phillipe; Beckert, Thomas; Hoenig, Sebastian; Schertl, Dieter;
   Weigelt, Gerd; Testi, Leonardo; Tatuli, Eric; Borkowski, Virginie;
   de Becker, Michaël; Surdej, Jean; Aringer, Bernard; Hron, Joseph;
   Lebzelter, Thomas; Chiavassa, Andrea; Corradi, Romano; Harries, Tim
2008SPIE.7013E..1FF    Altcode: 2008SPIE.7013E..40F; 2008arXiv0810.0545F
  One of the aims of next generation optical interferometric
  instrumentation is to be able to make use of information contained
  in the visibility phase to construct high dynamic range images. Radio
  and optical interferometry are at the two extremes of phase corruption
  by the atmosphere. While in radio it is possible to obtain calibrated
  phases for the science objects, in the optical this is currently not
  possible. Instead, optical interferometry has relied on closure phase
  techniques to produce images. Such techniques allow only to achieve
  modest dynamic ranges. However, with high contrast objects, for faint
  targets or when structure detail is needed, phase referencing techniques
  as used in radio interferometry, should theoretically achieve higher
  dynamic ranges for the same number of telescopes. Our approach is
  not to provide evidence either for or against the hypothesis that
  phase referenced imaging gives better dynamic range than closure
  phase imaging. Instead we wish to explore the potential of this
  technique for future optical interferometry and also because image
  reconstruction in the optical using phase referencing techniques has
  only been performed with limited success. We have generated simulated,
  noisy, complex visibility data, analogous to the signal produced in
  radio interferometers, using the VLTI as a template. We proceeded with
  image reconstruction using the radio image reconstruction algorithms
  contained in aips imagr (clean algorithm). Our results show that
  image reconstruction is successful in most of our science cases,
  yielding images with a 4 milliarcsecond resolution in K band. We have
  also investigated the number of target candidates for optical phase
  referencing. Using the 2MASS point source catalog, we show that there
  are several hundred objects with phase reference sources less than 30
  arcseconds away, allowing to apply this technique.

---------------------------------------------------------
Title: System overview of the VLTI Spectro-Imager
Authors: Jocou, L.; Berger, J. P.; Malbet, F.; Kern, P.; Beckmann, U.;
   Lorenzetti, D.; Corcione, L.; Li Causi, G.; Buscher, D.; Young, J.;
   Gai, M.; Weigelt, G.; Zins, G.; Duvert, G.; Perraut, K.; Labeye, P.;
   Absil, O.; Garcia, P.; Loreggia, D.; Lima, J.; Rebordao, J.; Ligori,
   S.; Amorim, A.; Rabou, P.; Le Bouquin, J. B.; Haniff, C.; Le Coarer,
   E.; Feautrier, P.; Duchene, G.; Benisty, M.; Chelli, A.; Herwats,
   E.; Delboulbé, A.
2008SPIE.7013E..2YJ    Altcode: 2008arXiv0807.3403J; 2008SPIE.7013E..90J
  The VLTI Spectro Imager project aims to perform imaging with a
  temporal resolution of 1 night and with a maximum angular resolution
  of 1 milliarcsecond, making best use of the Very Large Telescope
  Interferometer capabilities. To fulfill the scientific goals (see Garcia
  et. al.), the system requirements are: a) combining 4 to 6 beams;
  b) working in spectral bands J, H and K; c) spectral resolution
  from R= 100 to 12000; and d) internal fringe tracking on-axis,
  or off-axis when associated to the PRIMA dual-beam facility. The
  concept of VSI consists on 6 sub-systems: a common path distributing
  the light between the fringe tracker and the scientific instrument,
  the fringe tracker ensuring the co-phasing of the array, the scientific
  instrument delivering the interferometric observables and a calibration
  tool providing sources for internal alignment and interferometric
  calibrations. The two remaining sub-systems are the control system
  and the observation support software dedicated to the reduction of
  the interferometric data. This paper presents the global concept of
  VSI science path including the common path, the scientific instrument
  and the calibration tool. The scientific combination using a set of
  integrated optics multi-way beam combiners to provide high-stability
  visibility and closure phase measurements are also described. Finally
  we will address the performance budget of the global VSI instrument. The
  fringe tracker and scientific spectrograph will be shortly described.

---------------------------------------------------------
Title: Aperture-synthesis imaging with the mid-infrared instrument
    MATISSE
Authors: Hofmann, Karl-Heinz; Heininger, Matthias; Jaffe, Walter;
   Kraus, Stefan; Lopez, Bruno; Millour, Florentin; Schertl, Dieter;
   Weigelt, Gerd; Wolf, Sebastian
2008SPIE.7013E..3YH    Altcode: 2008SPIE.7013E.122H
  MATISSE is the second-generation mid-IR interferometry instrument
  proposed for ESO's Very Large Telescope Interferometer. MATISSE will
  combine the beams of up to four UTs or ATs of the VLTI and will allow
  aperture-synthesis imaging in the L, M, and N bands with a resolution
  of a few milli-arcseconds. We report on detailed image reconstruction
  experiments with simulated MATISSE interferograms. Using model images
  as input for many of our simulations, we study the dependence of
  the reconstructions on the brightness and size of the target, the uv
  coverage, and several other parameters.

---------------------------------------------------------
Title: VLTI-AMBER observations of Eta Carinae with the FINITO fringe
    tracker and spectral resolution 12000
Authors: Weigelt, Gerd; Chesneau, Olivier; Driebe, Thomas; Foy,
   Renaud; Fraix-Burnet, Didier; Groh, Jose H.; Hofmann, Karl-Heinz;
   Kraus, Stefan; Malbet, Fabien; Marconi, Alessandro; Mathias, Philippe;
   Millour, Florentin; Monin, Jean-Louis; Petrov, Romain G.; Rantakyrö,
   Frederik; Richichi, Andrea; Schertl, Dieter; Schöller, Markus; Stee,
   Philippe; Testi, Leonardo; Wittkowski, Markus
2008SPIE.7013E..03W    Altcode: 2008SPIE.7013E...2W
  We present interferometric near-infrared observations of the Luminous
  Blue Variable (LBV) η Car using the Very Large Telescope Interferometer
  (VLTI) and the AMBER instrument of the European Southern Observatory
  (ESO). A high spatial resolution of 5 mas (~11.5 AU) and a high spectral
  resolution R = λ/Δλ=1500 and 12000 were obtained. Some of the
  data was recorded using the fringe tracker FINITO. The observations
  were obtained in the wavelength range around both the He I 2.059
  μm and the Brγ 2.166 μm emission lines. The AMBER interferograms
  allow the investigation of the wavelength dependence of η Car's
  visibility, wavelength-differential phase, and closure phase. If we fit
  Hillier et al. model visibilities to the observations, we obtain 50%
  encircled-energy diameters of 4.2, 6.5 and 9.6 mas in the 2.17 μm
  continuum, the He I, and the Brγ emission lines, respectively. In
  the continuum, an elongation along a position angle of 120° +/-
  15° was derived from the visibilities. The VLTI observations support
  theoretical models of anisotropic winds from fast-rotating, luminous
  hot stars with enhanced high-velocity mass loss near the pole.

---------------------------------------------------------
Title: 2008 imaging beauty contest
Authors: Cotton, William; Monnier, John; Baron, Fabien; Hofmann,
   Karl-Heinz; Kraus, Stefan; Weigelt, Gerd; Rengaswamy, Sridharan;
   Thiébaut, Eric; Lawson, Peter; Jaffe, Walter; Hummel, Christian;
   Pauls, Tom; Schmitt, Henrique; Tuthill, Peter; Young, John
2008SPIE.7013E..1NC    Altcode: 2008SPIE.7013E..48C
  We present the results of the third Optical/IR Interferometry Imaging
  Beauty Contest. A formal comparison is presented of the performance of
  algorithms used for imaging data from optical/infrared long-baseline
  interferometers. The contest consists of blind imaging of test data sets
  derived from model sources and distributed in the OI-FITS format. The
  test data consisted of datasets on two objects each "observed" in
  J, H, and K bands. The majority of the entries produced accurate
  reconstructions of the initial models. Each of the methods presented
  is discussed.

---------------------------------------------------------
Title: Infrared spectro-interferometry of YSOs
Authors: Kraus, Stefan; Hofmann, Karl-Heinz; Ohnaka, Keiichi;
   Preibisch, Thomas; Weigelt, Gerd
2008SPIE.7013E..0RK    Altcode: 2008SPIE.7013E..23K
  The latest generation of infrared long-baseline interferometric
  instruments combines high spatial resolution with spectroscopic
  capabilities, enabling fascinating new studies of the AU-scale
  circumstellar environment around young stellar objects. Here,
  we present recent investigations, which we conducted using the
  VLTI instruments AMBER and MIDI and which demonstrate these new
  observational possibilities. In one study, we combine near- and
  mid-infrared interferometry (H-/K-/N-band) to constrain the geometry
  and radial temperature profile of the circumstellar accretion disk
  around the Herbig Be star MWC147. Using detailed radiative transfer
  modeling, we find strong evidence for the presence of an optically-thick
  inner gaseous disk. In another investigation, we used AMBER's medium
  spectral resolution mode (R = 1500) to study the spatial origin of
  the hydrogen Brγ line for five Herbig Ae/Be stars, associating the
  line emission with different physical mechanisms, such as disk winds
  and magnetospheric accretion. Finally, we present AMBER H- and K-band
  observations of the close binary star θ <SUP>1</SUP>OrionisC and
  illustrate the benefits of fitting wavelength-differential visibilities
  and closure phases. Besides yielding a high observing efficiency,
  this approach is also insensitive to calibration errors, induced,
  for instance, by fast changing atmospheric conditions.

---------------------------------------------------------
Title: The laser guide star program for the LBT
Authors: Rabien, S.; Ageorges, N.; Angel, R.; Brusa, G.; Brynnel, J.;
   Busoni, L.; Davies, R.; Deysenroth, M.; Esposito, S.; Gässler, W.;
   Genzel, R.; Green, R.; Haug, M.; Lloyd Hart, M.; Hölzl, G.; Masciadri,
   E.; Pogge, R.; Quirrenbach, A.; Rademacher, M.; Rix, H. W.; Salinari,
   P.; Schwab, C.; Stalcup, T., Jr.; Storm, J.; Strüder, L.; Thiel,
   M.; Weigelt, G.; Ziegleder, J.
2008SPIE.7015E..15R    Altcode: 2008SPIE.7015E..28R
  Laser guide star adaptive optics and interferometry are currently
  revolutionizing ground-based near-IR astronomy, as demonstrated at
  various large telescopes. The Large Binocular Telescope from the
  beginning included adaptive optics in the telescope design. With
  the deformable secondary mirrors and a suite of instruments taking
  advantage of the AO capabilities, the LBT will play an important role
  in addressing major scientific questions. Extending from a natural
  guide star based system, towards a laser guide stars will multiply
  the number of targets that can be observed. In this paper we present
  the laser guide star and wavefront sensor program as currently being
  planned for the LBT. This program will provide a multi Rayleigh guide
  star constellation for wide field ground layer correction taking
  advantage of the multi object spectrograph and imager LUCIFER in a
  first step. The already foreseen upgrade path will deliver an on axis
  diffraction limited mode with LGS AO based on tomography or additional
  sodium guide stars to even further enhance the scientific use of the
  LBT including the interferometric capabilities.

---------------------------------------------------------
Title: Mid-infrared view of cool evolved stars with the Very Large
    Telescope Interferometer
Authors: Ohnaka, Keiichi; Driebe, Thomas; Hofmann, Karl-Heinz; Weigelt,
   Gerd; Wittkowski, Markus
2008SPIE.7013E..4MO    Altcode: 2008SPIE.7013E.145O
  Two interferometric instruments at ESO's Very Large Telescope
  Interferometer (VLTI) - MIDI and AMBER operating in the mid-infrared
  (8-13 μm) and the near-infrared (JHK), respectively - have proven to
  be very powerful to study the physical properties of the circumstellar
  material around evolved stars. With the "spectro-interferometric"
  capability of MIDI and AMBER, we can disentangle spectral and spatial
  information on the observed object. VLTI observations have confirmed
  our pictures on the circumstellar environment of cool evolved stars
  in some cases but brought about entirely unexpected pictures in other
  cases. Here, we present our recent results obtained with VLTI/MIDI.

---------------------------------------------------------
Title: Spatially resolved dusty torus toward the red supergiant WOH
    G64 in the Large Magellanic Cloud
Authors: Ohnaka, K.; Driebe, T.; Hofmann, K. -H.; Weigelt, G.;
   Wittkowski, M.
2008A&A...484..371O    Altcode: 2008arXiv0803.3823O
  Aims: We present N-band spectro-interferometric observations of the
  red supergiant <ASTROBJ>WOH G64</ASTROBJ> in the Large Magellanic
  Cloud (LMC) using MIDI at the Very Large Telescope Interferometer
  (VLTI). While the very high luminosity (∼ 5 × 10<SUP>5</SUP>
  L<SUB>⊙</SUB>) previously estimated for WOH G64 suggests that it
  is a very massive star with an initial mass of ~40 M<SUB>⊙</SUB>,
  its low effective temperature (~3200 K) is in serious disagreement
  with the current stellar evolution theory. <BR />Methods: WOH G64
  was observed with VLTI/MIDI using the UT2-UT3 and UT3-UT4 baseline
  configurations. <BR />Results: The dust envelope around WOH G64 has
  been spatially resolved with a baseline of ~60 m - the first MIDI
  observations to resolve an individual stellar source in an extragalactic
  system. The observed N-band visibilities show a slight decrease from
  8 to ~10 μm and a gradual increase longward of ~10 μm, reflecting
  the 10 μm silicate feature in self-absorption. This translates into a
  steep increase of the uniform-disk diameter from 8 to 10 μm (from 18 to
  26 mas) and a roughly constant diameter above 10 μm. The visibilities
  measured at four position angles differing by ~60° but at approximately
  the same baseline length (~60 m) do not show a noticeable difference,
  suggesting that the object appears nearly centrosymmetric. The observed
  N-band visibilities and spectral energy distribution can be reproduced
  by an optically and geometrically thick silicate torus model viewed
  close to pole-on. The luminosity of the central star is derived to be
  ∼ 2.8 × 10<SUP>5</SUP> L<SUB>⊙</SUB>, which is by a factor of 2
  lower than the previous estimates based on spherical models. We also
  identify the H2O absorption features at 2.7 and 6 μm in the spectra
  obtained with the Infrared Space Observatory and the Spitzer Space
  Telescope. The 2.7 μm feature originates in the photosphere and/or
  the extended molecular layers, while the 6 μm feature is likely to
  be of circumstellar origin. <BR />Conclusions: The lower luminosity
  newly derived from our MIDI observations and two-dimensional modeling
  brings the location of WOH G64 on the H-R diagram in much better
  agreement with theoretical evolutionary tracks for a 25 M<SUB>⊙</SUB>
  star. However, the effective temperature is still somewhat too cool for
  the theory. The low effective temperature of WOH G64 places it very
  close to or even beyond the Hayashi limit, which implies that this
  object may be experiencing unstable, violent mass loss. <P />Based on
  observations made with the Very Large Telescope Interferometer of the
  European Southern Observatory. Program ID: 076.D-0253, 080.D-0222. <P
  />This work is based [in part] on observations made with the Spitzer
  Space Telescope, which is operated by the Jet Propulsion Laboratory,
  California Institute of Technology under a contract with NASA.

---------------------------------------------------------
Title: Establishing the AGN torus inner boundary with a first direct
    access to the central engine in the near-IR
Authors: Kishimoto, Makoto; Barvainis, Richard; Antonucci, Robert;
   Kotani, Takayuki; Honig, Sebastian; Beckert, Thomas; Weigelt, Gerd
2008noao.prop..184K    Altcode:
  Contrary to the expectation that near-IR long-baseline interferometry
  can spatially resolve the innermost dusty torus in Type 1 AGN, the
  only existing such measurement, with the Keck Interferometer (KI)
  by Swain et al. (2003) for the brightest Seyfert 1 galaxy NGC 4151,
  has indicated an unexpectedly compact size (radius &lt;=0.5 mas or
  0.04 pc; V^2=0.84+/-0.06 at K-band), much smaller than the nominal
  dust sublimation radius. This has been interpreted as a dominance of
  an unresolved accretion disk, implying non-existence of the putative
  torus in this prototypical Type 1 nucleus. However, we recently pointed
  out that the inner torus radii suggested by near-IR reverberations
  are generally also much smaller, by a factor of 3, than the nominal
  sublimation radius. Now with the significantly improved KI, we propose
  to conduct an independent and conclusive size measurement by obtaining
  K- band visibilities over a significant range of baselines. This will
  restore the torus picture, with a much smaller radius than expected
  from nominal ISM grains, and establish a significantly different
  nature of the grains in the innermost AGN. Furthermore, with a new
  H-band visibility measurement, we will be able to have a first direct
  access to the unresolved accretion disk in the near-IR.

---------------------------------------------------------
Title: High-Resolution Near-Infrared Speckle Interferometry and
    Radiative Transfer Modeling of the OH/IR Star OH 104.9+2.4
Authors: Riechers, D.; Driebe, T.; Balega, Y. Y.; Hofmann, K. -H.;
   Men'shchikov, A. B.; Weigelt, G.
2008poii.conf..505R    Altcode: 2008poio.conf..505R
  We present near-infrared speckle interferometry of the OH/IR star
  OH 104.9+2.4 in the K' band obtained with the 6m telescope of the
  Special Astrophysical Observatory (SAO) in Sep. 2002 and Oct. 2003. At
  a wavelength of λ = 2.13 μ m the diffraction-limited resolution of 74
  mas was attained. The reconstructed visibility reveals a spherically
  symmetric, circumstellar dust shell (CDS) surrounding the central
  star. The visibility function shows that the stellar contribution
  to the total flux at λ = 2.13 μ m is less than 30% at all phases,
  indicating a rather large optical depth of the CDS. The azimuthally
  averaged 1-dimensional Gaussian visibility fit yields a diameter of
  47 ± 3 mas (FHWM), which corresponds to 112 ± 13 AU for an adopted
  distance of D = 2.38 ± 0.24 kpc.To determine the structure and the
  roperties of the CDS of OH 104.9+2.4, radiative transfer calculations
  using the code DUSTY cite{rie:ie95} were performed to simultaneously
  model its visibility and the spectral energy distribution (SED). Since
  OH 104.9+2.4 is highly variable, the observational data taken into
  consideration for the modeling correspond to different phases of the
  object's variability cycle. This offers the possibility to derive
  several physical parameters of the central star and its CDS as a
  function of phase

---------------------------------------------------------
Title: Speckle Interferometry of Two Low-mass Triple Systems in the
    Solar Neighbourhood
Authors: Malogolovets, E. V.; Balega, Y. Y.; Hofmann, K. -H.;
   Rastegaev, D. A.; Weigelt, G.
2008msah.conf..125M    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: VEGA: A Visible Spectrograph and Polarimeter for the VLTI
Authors: Mourard, D.; Antonelli, P.; Blazit, A.; Bonneau, D.; Bresson,
   Y.; Clausse, J. M.; Domiciano, A.; Dugué, M.; Foy, R.; Harmanec, P.;
   Heininger, M.; Hofmann, K. -H.; Jankov, S.; Koubsky, P.; Lagarde, S.;
   Lebouquin, J. B.; Mathias, P.; Meilland, A.; Nardetto, N.; Petrov,
   R.; Rousselet-Perraut, K.; Schertl, D.; Stee, Ph.; Tallon-Bosc, I.;
   Tallon, M.; Thiébaut, E.; Vakili, F.; Weigelt, G.
2008poii.conf..395M    Altcode: 2008poio.conf..395M
  The ESO/VLTI has now clearly a position of world leader in the domain of
  ground-based optical interferometry. With four 8.2 m telescopes and two
  (four) 1.8 m telescopes, the Paranal Observatory is without any doubt
  the best optical interferometric facility in the world. Since many
  years, it has attracted the major part of the European interferometric
  community and with the opening of MIDI and AMBER, the astronomers
  have now access to 'general user' interferometric instruments in
  the thermal and near infrared. This paper describes a project for a
  second generation focal instrument of the VLTI, named VEGAfor Visible
  spEctroGraph and polArimeter. The goal is to give access to the visible
  wavelength region, with spectroscopic and polarimetric capabilities,
  taking advantage of the coherent field of view of the VLTI. It is a
  unique scientific field for the VLTI. For example, a 200m interferometer
  operating in the visible will be able to resolve structures of the
  order of 0.5 mas or 0.1 AU at the distance of the Ophiuchus cloud.

---------------------------------------------------------
Title: Probing the Outer Atmosphere of Mira Variables and the Effects
    of Chemical Composition on the Mid-Infrared Visibility
Authors: Ohnaka, K.; Driebe, T.; Hofmann, K. -H.; Preibisch, Th.;
   Schertl, D.; Weigelt, G.; Wittkowski, M.
2008poii.conf..495O    Altcode: 2008poio.conf..495O
  No abstract at ADS

---------------------------------------------------------
Title: First AMBER/VLTI Observations of Hot Massive Stars
Authors: Petrov, R. G.; Millour, F.; Chesneau, O.; Weigelt, G.;
   Bonneau, D.; Stee, Ph.; Kraus, S.; Mourard, D.; Meilland, A.; Vannier,
   M.; Malbet, F.; Lisi, F.; Antonelli, P.; Kern, P.; Beckmann, U.;
   Lagarde, S.; Perraut, K.; Gennari, S.; Le Coarer, E.; Driebe, Th.;
   Accardo, M.; Robbe-Dubois, S.; Ohnaka, K.; Busoni, S.; Roussel, A.;
   Zins, G.; Behrend, J.; Ferruzi, D.; Bresson, Y.; Duvert, G.; Nussbaum,
   E.; Marconi, A.; Feautrier, Ph.; Dugué, M.; Chelli, A.; Tatulli,
   E.; Heininger, M.; Delboulbe, A.; Bonhomme, S.; Schertl, D.; Testi,
   L.; Mathias, Ph.; Monin, J. -L.; Gluck, L.; Hofmann, K. H.; Salinari,
   P.; Puget, P.; Clausse, J. M.; Fraix-Burnet, D.; Foy, R.; Isella, A.
2008poii.conf..153P    Altcode: 2005astro.ph..9208P; 2008poio.conf..153P
  AMBER is the first near infrared focal instrument of the
  VLTI. It combines three telescopes and produces spectrally resolved
  interferometric measures. This paper discusses some preliminary results
  of the first scientific observations of AMBER with three Unit Telescopes
  at medium (1500) and high (12000) spectral resolution. We derive a
  first set of constraints on the structure of the circumstellar material
  around the Wolf Rayet γ<SUP>2</SUP> Velorum and the LBV η Carinae.

---------------------------------------------------------
Title: A methodology for studying physical and dynamical properties
    of multiple stars. Application to the system of red dwarfs Gl 22
Authors: Docobo, J. A.; Tamazian, V. S.; Balega, Y. Y.; Andrade, M.;
   Schertl, D.; Weigelt, G.; Campo, P.; Palacios, M.
2008A&A...478..187D    Altcode:
  Aims:The main aim of this study is the elaboration of a methodology
  for studying physical and dynamical properties of multiple stars and
  its application to the hierarchical triple system Gl 22. A careful
  evaluation of the components' masses and a study of the system's overall
  stability and long-term dynamical evolution were also pursued. <BR
  />Methods: New NIR speckle interferometric observations with the
  6 m telescope of the Special Astrophysical Observatory (Russia)
  in the K' photometric band have been carried out. We have made use
  of the method for orbit calculation reported by Docobo (1985). <BR
  />Results: An original methodology was elaborated and applied to
  evaluate the most probable elements of the outer orbit. Due to the
  almost definitive orbit of the inner pair, which just covered a
  full revolution, the motion of B relative to MC<SUB>A</SUB> has been
  carefully calculated. The position of MC<SUB>A</SUB> was estimated on
  the basis of differential photometry and empirical mass-luminosity
  relationships. A weak sinusoidal pattern in the apparent motion of
  the component B was noticed. <BR />Conclusions: Our methodology was
  successfully applied to the triple system Gl 22. The newly calculated
  outer orbit exhibits a moderate eccentricity (e = 0.29), which
  differs from the previously known circular solutions. Both orbits are
  coplanar and co-revolving. This already known suggestion is now based
  on a much larger set of observational data, including a significant
  number of speckle measurements. Gl 22 is most likely a dynamically
  stable system, at least on the time scale of 10 Myr. The sinusoidal
  pattern in the motion of the B component could be caused by a fourth,
  unseen, very low-mass object with a mass of 0.015~M<SUB>⊙</SUB>
  (16 M<SUB>J</SUB>) on a circular orbit around B with a period of ~15
  yr and semimajor axis 0.35 arcsec.

---------------------------------------------------------
Title: Interferometric Observations of the Mira Star o Ceti with
    the VLTI/VINCI Instrument in the Near-Infrared
Authors: Driebe, T.; Woodruff, H. C.; Eberhardt, M.; Hofmann, K. -H.;
   Ohnaka, K.; Richichi, A.; Schertl, D.; Schöller, M.; Scholz, M.;
   Weigelt, G.; Wittkowski, M.; Wood, P. R.
2008poii.conf..503D    Altcode: 2008poio.conf..503D
  We present K-band commissioning observations of the Mira star prototype
  o Cet obtained at the ESO Very Large Telescope Interferometer (VLTI)
  with the VINCI instrument and two siderostats mounted to the VLTI
  stations EO and GO, forming an unprojected baseline length of 16
  m. Rosseland angular radii were derived from the measured visibilities
  by fitting theoretical visibility functions obtained from center-to-limb
  intensity variations (CLVs) of different Mira star models, and the phase
  dependence of the visibility function and the apparent diameter have
  been investigated. Comparison of the derived Rosseland radii, effective
  temperatures, and the shape of the observed visibility functions with
  model predictions suggests that o Cet is a fundamental mode pulsator.

---------------------------------------------------------
Title: VLTI MIDI Observations of the Herbig Ae Star HR 5999
Authors: Preibisch, Thomas; Driebe, Thomas; Kraus, Stefan; Lachaume,
   Regis; van Boekel, Roy; Weigelt, Gerd
2008poii.conf..249P    Altcode: 2008poio.conf..249P
  We have used long-baseline mid-infrared interferometric observations
  with MIDI at the VLTI to resolve the circumstellar material around the
  Herbig Ae star HR 5999 and to provide the first direct measurement of
  its angular size. The obtained visibilities range between ~ 0.5 and
  ~ 0.9 at 10μm. This implies that the mid-infrared emission from HR
  5999 is clearly resolved, but has a compact structure not much larger
  than the resolution limit of the MIDI observations. The characteristic
  size of the emission region depends on the position angles, and ranges
  between 10 and 25 milli-arcseconds (corresponding to ~ 2-5 AU) for a
  uniform-disk model, and 5-15 mas (~ 1-3 AU) for a Gauss model (FWHM). We
  find a dependence of the characteristic size on the projected baseline
  position angle, which suggests asymmetry of the emission region. To
  derive constraints on the geometry of the dust distribution, we compare
  our interferometric measurements to 2D, frequency-dependent radiation
  transfer simulations of circumstellar disks.

---------------------------------------------------------
Title: APerture Synthesis in the MID-Infrared with the VLTI
Authors: Lopez, B.; Wolf, S.; Duguée, M.; Graser, U.; Mathias, Ph.;
   Antonelli, P.; Augereau, J. -C.; Behrend, J.; Berruyer, N.; Bresson,
   Y.; Chesneau, O.; Connot, C.; Demyk, K.; Difolco, E.; Dutrey, A.;
   Flament, S.; Gitton, Ph.; Glazenborg, A.; Glindemann, A.; Heininger,
   M.; Henning, Th.; Hofmann, K. -H.; Hugues, Y.; Jaffe, W.; Jankov,
   S.; Kraus, S.; Lagarde, S.; Leinert, Ch.; Linz, H.; Meisenheimer, K.;
   Mosoni, L.; Menut, J. -L.; Neumann, U.; Niedzielski, A.; Przygodda,
   F.; Puech, F.; Ratzka, T.; Rohloff, R.; Roussel, A.; Schertl, D.;
   Schmider, F. -X.; Stecklum, B.; Thiéebaut, E.; Vakili, F.; Wagner,
   K.; Weigelt, G.
2008poii.conf..345L    Altcode: 2008poio.conf..345L
  Our objective is to develop of the mid-infrared imaging for
  the VLTI. Several areas of astrophysics will benefit of this new
  capability. APreS-MIDI comprises a beam combiner which interfaces with
  the current MIDI instrument. It thus constitutes an extension to the
  two-beam interferometric instrument MIDI by increasing the number of
  recombined beams up to four. This extension provides better uv-coverage
  (6 visibility points measured in one set) and moreover will allow
  measurement of 4 closure phase relations thus providing for the first
  time aperture synthesis images in the mid-infrared spectral regime.

---------------------------------------------------------
Title: High-Resolution Near-Infrared Speckle Interferometry and
    Radiative Transfer Modeling of the OH/IR Star OH 26.5+0.6
Authors: Driebe, T.; Riechers, D.; Balega, Y. Y.; Hofmann, K. -H.;
   Men'shchikov, A. B.; Weigelt, G.
2008poii.conf..509D    Altcode: 2008poio.conf..509D
  We present near-infrared speckle interferometry of the OH/IR star OH
  26.5+0.6 in the K' band obtained with the 6m telescope of the Special
  Astrophysical Observatory (SAO) in Oct. 2003. At a wavelength of λ =
  2.13 μm the diffraction-limited resolution of 74 mas was attained. The
  reconstructed visibility reveals a spherically symmetric, circumstellar
  dust shell (CDS) surrounding the central star. In accordance with the
  deep silicate absorption feature in the spectral energy distribution
  (SED), the drop of the visibility function to a value of 0.36 at the
  cutoff frequency indicates a rather large optical depth of the CDS. To
  determine the structure and the properties of the CDS of OH 26.5+0.6,
  radiative transfer calculations using the code DUSTY[3] were performed
  to simultaneously model its visibility and the SED. Since OH 26.5+0.6
  is highly variable, the observational data taken into consideration
  for the modeling correspond to different phases of the object's
  variability cycle. As in the case of another OH/IR star, OH 104.9+2.4
  (see [5] and Riechers et al., this volume), we used these observational
  constraints at different epochs to derive several physical parameters
  of the central star and the CDS of OH 26.5+0.6 as a function of phase

---------------------------------------------------------
Title: Eta Car through the Eyes of Interferometers
Authors: Chesneau, O.; van Boekel, R.; Herbst, T.; Kervella, P.; Min,
   M.; Waters, L. B. F. M.; Leinert, Ch.; Petrov, R.; Weigelt, G.
2008poii.conf..131C    Altcode: 2008poio.conf..131C
  The core of the nebula surrounding Eta Carinae has recently been
  observed with VLT/NACO, VLTI/VINCI, VLTI/MIDI and VLTI/AMBER in order
  to spatially and spectrally constrain the warm dusty environment and
  the central object. Narrow-band images at 3.74 μm and 4.05 μm reveal
  the structured butterfly-shaped dusty environment close to the central
  star with an unprecedented spatial resolution of about 60 mas. VINCI
  has resolved the present-day stellar wind of Eta Carinae on a scale
  of several stellar radii owing to the spatial resolution of the order
  of 5 mas (~ 11 AU). The VINCI observations show that the object is
  elongated with a de-projected axis ratio of approximately 1.5. Moreover
  the major axis is aligned with that of the large bipolar nebula that
  was ejected in the 19th century. Fringes have also been obtained in the
  Mid-IR with MIDI using baselines of 75m. A peak of correlated flux of
  100 Jy is detected 0.3" south-east from the photocenter of the nebula
  at 8.7 μm is detected. This correlated flux is partly attributed to
  the central object but it is worth noting that at these wavelengths,
  virtually all the 0.5" x 0.5" central area can generate detectable
  fringes witnessing the large clumping of the dusty ejecta. These
  observations provide an upper limit for the SED of the central source
  from 3.8 μm to 13.5 μm and constrain some parameters of the stellar
  wind which can be compared to Hillier's model. Lastly, we present the
  great potential of the AMBER instrument to study the numerous near-IR
  emissive lines from the star and its close vicinity. In particular,
  we discuss its ability to detect and follow the faint companion.

---------------------------------------------------------
Title: Interferometric Orbits of New Hipparcos Binaries
Authors: Balega, I. I.; Balega, Y. Y.; Hofmann, K. -H.; Malogolovets,
   E. V.; Schertl, D.; Shkhagosheva, Z. U.; Weigelt, G.
2008msah.conf..114B    Altcode:
  First orbits are derived for 12 new Hipparcos binary systems based
  on the precise speckle interferometric measurements of the relative
  positions of the components. The orbital periods of the pairs
  are between 5.9 and 29.0 yrs. Magnitude differences obtained from
  differential speckle photometry allow us to estimate the absolute
  magnitudes and spectral types of individual stars and to compare
  their position on the mass-magnitude diagram with the theoretical
  curves. The spectral types of the new orbiting pairs range from late
  F to early M. Their mass-sums are determined with a relative accuracy
  of 10-30%. The mass errors are completely defined by the errors of
  Hipparcos parallaxes.

---------------------------------------------------------
Title: Disentangling the Wind and the Disk in the Close Surrounding
    of the Young Stellar Object MWC297 with AMBER/VLTI
Authors: Malbet, F.; Benisty, M.; De Wit, W. J.; Kraus, S.; Meilland,
   A.; Millour, F.; Tatulli, E.; Berger, J. -P.; Chesneau, O.; Hofmann,
   K. -H.; Isella, A.; Petrov, R.; Preibisch, T.; Stee, P.; Testi, L.;
   Weigelt, G.
2008poii.conf..255M    Altcode: 2005astro.ph..7226M; 2008poio.conf..255M
  The young stellar object MWC297 is a B1.5Ve star exhibiting strong
  hydrogen emission lines. This object has been observed by the AMBER/VLTI
  instrument in 2-telescope mode in a sub-region of the K spectral band
  centered around the Brγ line at 2.1656μm. The object has not only been
  resolved in the continuum with a visibility of 0.50±0.10, but also in
  the Brγ line, where the flux is about twice larger, with a visibility
  about twice smaller (0.33±0.06). The continuum emission is consistent
  with the expectation of an optically thick thermal emission from dust
  in a circumstellar disk. The hydrogen emission can be understood by
  the emission of a halo above the disk surface. It can be modelled
  as a latitudinal-dependant wind model and it explains the width, the
  strength and the visibibility through the emission lines. The AMBER
  data associated with a high resolution ISAAC spectrum constrains the
  apparent size of the wind but also its kinematics

---------------------------------------------------------
Title: Temporal Variation of the Warm Molecular Layers around the
    Mira Variable RR Sco Detected with the VLTI/MIDI Instrument
Authors: Ohnaka, K.; Driebe, T.; Hofmann, K. -H.; Schertl, D.; Weigelt,
   G.; Wittkowski, M.
2008poii.conf..497O    Altcode: 2008poio.conf..497O
  No abstract at ADS

---------------------------------------------------------
Title: Mid-Infrared Long-Baseline Interferometry of the Symbiotic
    Mira Star RX Pup with the VLTI/MIDI Instrument
Authors: Driebe, T.; Hofmann, K. -H.; Ohnaka, K.; Schertl, D.; Weigelt,
   G.; Wittkowski, M.
2008poii.conf..507D    Altcode: 2008poio.conf..507D
  We present mid-infrared long-baseline interferometric observations of
  the symbiotic Mira star RX Pup obtained with the VLTI/MIDI instrument
  in prism mode within the framework of the Science Demonstration Time
  (SDT) program in Feb. 2004. Four visibility measurements have been
  carried out using the unit telescopes UT2 and UT3, with projected
  baseline lengths ranging from 34.7 to 46.5 m.As we show by means of
  radiative transfer modelin with the code DUSTY [3], the wavelength
  dependence of the visibility and the N-band spectrum measured with
  MIDI can be interpreted as thesignature of a circumstellar dust shell
  which is dominated by silicate dust.

---------------------------------------------------------
Title: N-Band Observation of the Silicate Carbon Star IRAS08002-3803
    (Hen 38) with VLTI/MIDI
Authors: Ohnaka, K.; Driebe, T.; Hofmann, K. -H.; Preibisch, Th.;
   Schertl, D.; Weigelt, G.; Wittkowski, M.
2008poii.conf..499O    Altcode: 2008poio.conf..499O
  No abstract at ADS

---------------------------------------------------------
Title: The Circumstellar Environment of Evolved Stars as seen by
    VLTI/MIDI
Authors: Ohnaka, K.; Bergeat, J.; Driebe, T.; Graser, U.; Hofmann,
   K. -H.; Köhler, R.; Leinert, Ch.; Lopez, B.; Malbet, F.; Morel, S.;
   Paresce, F.; Perrin, G.; Preibisch, Th.; Richichi, A.; Schertl, D.;
   Schöller, M.; Sol, H.; Weigelt, G.; Wittkowski, M.
2008poii.conf..111O    Altcode: 2008poio.conf..111O
  We present the results of the first mid-infrared interferometric
  observations of the Mira variable RRSco with the VLTI/MIDI, together
  with K-band observations using VLTI/VINCI.The uniform-disk diameter was
  found to be 18mas between 8 and 10μm, while it gradually increases at
  wavelengths longer than 10μm to reach 24mas at 13μm.These uniform-disk
  diameters in the mid-infrared are significantly larger than the K-band
  uniform-disk diameter of 10.2±0.5 mas measured using VLTI/VINCI,
  three weeks after the MIDI observations. Our model calculations show
  that optically thick emission from a warm molecular envelope consisting
  of H<SUB>2</SUB>O and SiO can cause the apparent mid-infrared diameter
  to be much larger than the continuum diameter, and this can explain the
  mid-infrared angular sizes roughly twice as large as that measured in
  the K band. The observed increase of the uniform-disk diameter longward
  of 10μm can be explained by an optically thin dust shell consisting
  of corundum and silicate grains.

---------------------------------------------------------
Title: η Carinae 2009.0: One of the Most Remarkable Stars in the Sky
Authors: Sterken, Christiaan; van Genderen, Arnout; Weigelt, Gerd;
   Kaufer, Andreas
2007Msngr.130...32S    Altcode:
  η Carinae is one of the most luminous and massive stars in the
  Galaxy. The star underwent a major eruption in 1838, followed by a
  second maximum a few decades later and a low-gradient brightening to the
  present. The central source of η Car is a highly-eccentric binary with
  a period of 5.54 years. The photometric and interferometric monitoring
  programmes with ESO telescopes are summarised. On the occasion of the
  forthcoming periastron passage in 2009.0, the star will be the target
  of intensive photometric, spectroscopic and interferometric monitoring
  from Chile and other southern observatories.

---------------------------------------------------------
Title: Eta Carinae: Preparing for the Next Spectroscopic Event and
    What We May Learn
Authors: Gull, Theodore R.; Corcoran, M.; Damineli, A.; Hillier, D.;
   Owocki, S.; Madura, T.; Weigelt, G.; Groh, J.; Nielsen, K.; Vieira
   Kober, G.; Weis, K.; Hartman, H.; Smith, N.; Hamaguchi, K.; Bautista,
   M.; Carinae Bunch, Eta
2007AAS...211.5103G    Altcode: 2007BAAS...39..815G
  Eta Carinae, with its historical ejection events of the 19th century
  and propinquity, provides an excellent test bed for understanding
  how the most massive stars transition from hydrogen burning to the
  presupernova stage. <P />The next X-ray and visible/UV spectroscopic
  event, associated with the binary periastron, is predicted to be January
  11, 2009 +/- 2 days. Observations are being prepared and proposed
  to test models of the binary system and response by the ejecta to
  changes in the photo-excitation. This poster will describe current
  and developing models and observations that are planned to test and
  further enhance these models. We solicit additional observational
  and modeling efforts. <P />We acknowledge the resources of the many
  observatories supporting this project.

---------------------------------------------------------
Title: The innermost region of AGN tori: implications from the
    HST/NICMOS type 1 point sources and near-IR reverberation
Authors: Kishimoto, M.; Hönig, S. F.; Beckert, T.; Weigelt, G.
2007A&A...476..713K    Altcode: 2007arXiv0709.0431K
  Spatially resolving the innermost region of the putative torus-like
  structure in an active galactic nucleus (AGN) is one of the main goals
  of high-spatial-resolution studies. This could be done in the near-IR
  observations of type 1 AGNs where we directly see the hottest dust
  grains in the torus. We discuss two critical issues in such studies. One
  is the possible contribution from the central putative accretion disk
  (the near-IR part of the big blue bump emission), which should be taken
  into account for the torus measurements. The other is the expected size
  of the inner boundary of the torus, essential for the feasibility of
  spatially resolving the region. We examine the nuclear near-IR point
  sources in the HST/NICMOS images of nearby type 1 AGNs to evaluate the
  accretion disk contribution. After the subtraction of the host bulge
  flux through two-dimensional decompositions, we show that near-IR colors
  of the point sources appear quite interpretable simply as a composite of
  a black-body-like spectrum and a relatively blue distinct component,
  as expected for a torus and an accretion disk in the near-IR. The
  near-IR colors of our radiative transfer models for clumpy tori also
  support this simple two-component interpretation. The observed near-IR
  colors for the available sample suggest a fractional accretion disk
  contribution of ~25% or less at 2.2 μm. We also show that the innermost
  torus radii as indicated by recent near-IR reverberation measurements
  are systematically smaller by a factor of ~3 than the predicted dust
  sublimation radius with a reasonable assumption for graphite grains
  of a sublimation temperature 1500 K and size 0.05 μm in radius. The
  discrepancy might indicate a much higher sublimation temperature or a
  typical grain size much larger in the innermost tori, though the former
  case appears to be disfavored by the observed colors of the HST point
  sources studied above. Alternatively, the central engine radiation
  might be significantly anisotropic. The near-IR interferometry with a
  baseline of ~100 m should be able to provide important, independent
  size measurements for the innermost torus region, based on the low
  fractional contribution from the accretion disk obtained above.

---------------------------------------------------------
Title: Speckle interferometry of nearby multiple
    stars. IV. Measurements in 2004 and new orbits
Authors: Balega, I. I.; Balega, Yu. Yu.; Maksimov, A. F.; Malogolovets,
   E. V.; Rastegaev, D. A.; Shkhagosheva, Z. U.; Weigelt, G.
2007AstBu..62..339B    Altcode: 2007arXiv0712.2573B
  The results of speckle interferometric observations of 104 binary and
  6 triple stars performed at the BTA 6 m telescope in 2004 October
  are presented. Nearby low-mass stars are mostly observed for the
  program, among which 59 there are new binaries recently discovered
  by the Hipparcos astrometric satellite. Concurrently with the
  diffraction-limited position measurements we obtained 154 brightness
  ratio measurements of binary and multiple star components in different
  bands of the visible spectrum. New, first-resolved binaries are the
  symbiotic star CH Cyg with a weak companion at 0.043″ separation and
  the pair of red dwarfs, GJ 913 = HIP 118212. In addition, we derived
  the orbital parameters for two interferometric systems: the CN-giant
  pair HD 210211 = HIP 109281 (P = 10.7 yr) and the G2V-K2V G2V-K2V
  binary GJ 9830 = HIP 116259 (P = 15.7 yr).

---------------------------------------------------------
Title: Mid-Infrared Long-Baseline Interferometry of the Symbiotic
    Mira Star RX Pup with the VLTI/MIDI Instrument
Authors: Driebe, T.; Hofmann, K. -H.; Ohnaka, K.; Schertl, D.;
   Weigelt, G.
2007ASPC..378..291D    Altcode:
  We present mid-infrared long-baseline interferometric observations of
  the symbiotic Mira star RX Pup obtained with the VLTI/MIDI instrument
  within the framework of the Science Demonstration Time (SDT) program
  in February 2004. Four visibility measurements have been carried
  out using the unit telescopes UT2 and UT3, with projected baseline
  lengths ranging from 34.7 to 46.5 m. All visibility measurements show
  a distinct wavelength dependence: a rather steep decrease between 8 and
  10 μm, and a shallower monotonic increase longward of 10 μm. For the
  corresponding uniform disk diameter, this visibility shape translates
  into a diameter increase by a factor of 2 from 25 to 50 mas between 8
  and 10 μm and an almost wavelength-independent diameter between 10
  and 13 μm. As we show by means of radiative transfer modeling with
  the code dusty, this wavelength dependence measured with VLTI/MIDI
  can be interpreted as the mid-infrared signature of a circumstellar
  dust shell which is dominated by silicate dust.

---------------------------------------------------------
Title: High-Resolution Near-Infrared Speckle Interferometry and
    Radiative Transfer Modeling of the OH/IR Star OH 26.5+0.6
Authors: Driebe, T.; Riechers, D.; Balega, Y. Y.; Hofmann, K. -H.;
   Menshchikov, A. B.; Weigelt, G.
2007ASPC..378..289D    Altcode:
  We present near-infrared speckle interferometry of the OH/IR star
  OH 26.5+0.6 in the K' band obtained with the 6-m telescope of the
  Special Astrophysical Observatory (SAO) in October 2003. At λ = 2.12
  μm the diffraction-limited resolution of 74 mas was attained. The
  reconstructed visibility function shows that the stellar contribution to
  the total flux at λ = 2.12 μm is less than 50%, indicating a rather
  large optical depth of the circumstellar dust shell (CDS) surrounding
  this highly reddened object, in accordance with the strong silicate
  absorption feature seen in the spectral energy distribution (SED). Our
  phase-dependent modeling approach follows a strategy similar to the
  one recently applied successfully to interpret observations of the
  OH/IR star OH 104.9+2.4 (Riechers et al. 2005). From our analysis,
  we derived several physical parameters of the central star and the
  CDS as a function of pulsation phase.

---------------------------------------------------------
Title: Bispectrum Speckle Interferometry and Imaging Polarimetry of
the Carbon Star IRC+10216: the Dynamic Evolution of the Innermost
    Circumstellar Environment from 1995 to 2005
Authors: Weigelt, G.; Balega, Y. Y.; Hofmann, K. -H.; Men'shchikov,
   A.; Murakawa, K.; Schertl, D.
2007ASPC..378..349W    Altcode:
  We report on bispectrum speckle interferometry monitoring, radiative
  transfer modeling, and imaging polarimetry of IRC+10216.

---------------------------------------------------------
Title: VLTI/MIDI Observation of the Silicate Carbon Star IRAS
08002--3803: Dusty Environment Spatially Resolved for the First Time
Authors: Ohnaka, K.; Driebe, T.; Hofmann, K. -H.; Preibisch, Th.;
   Schertl, D.; Weigelt, G.; Wittkowski, M.
2007ASPC..378..327O    Altcode:
  We present the results of N--band high angular resolution observations
  of the silicate carbon star IRAS 08002--3803 with the MID-infrared
  Interferometric instrument (MIDI) at ESO's Very Large Telescope
  Interferometer (VLTI). Our VLTI/MIDI observations of IRAS 08002--3803
  have spatially resolved the dusty environment of a silicate carbon
  star for the first time. However, neither spherical shell models nor
  axisymmetric disk models consisting of silicate grains alone can
  simultaneously explain the observed wavelength dependence of the
  visibility and the spectral energy distribution (SED). We propose
  that the circumstellar environment of IRAS 08002--3803 may consist
  of two grain species coexisting in the disk: silicate and a second
  grain species, for which we consider amorphous carbon, large silicate
  grains, and metallic iron grains. Our MIDI observations and radiative
  transfer calculations lend support to a picture in which oxygen-rich
  material around IRAS 08002--3803 is stored in an optically thick
  circumbinary disk surrounding the carbon-rich primary star and its
  putative low-luminosity companion.

---------------------------------------------------------
Title: Near-Infrared Speckle Imaging and AO Polarimetry of the
    Bipolar Proto-Planetary Nebula Frosty Leo
Authors: Murakawa, K.; Ohnaka, K.; Driebe, T.; Hofmann, K. -H.;
   Scherti, D.; Oya, S.; Weigelt, G.
2007ASPC..378..321M    Altcode:
  We present a K'--band speckle image and H,K--band polarimetric images
  of the oxygen-rich proto-planetary nebula Frosty Leo. Our speckle image
  reveals clumpy structures in the hourglass-like bipolar nebula. The
  polarimetric data, for the first time, detected an elongated region with
  small polarization. We have performed radiative transfer calculations
  to investigate the physical properties of the Frosty Leo nebula. We
  found that micron-size grains in the dense equatorial region and small
  grains in the bipolar lobes are required to explain the total intensity
  images, the polarization images, and the spectral energy distribution.

---------------------------------------------------------
Title: Cool evolved stars as seen by the Very Large Telescope
Interferometer: Power of infrared spectro-interferometry
Authors: Ohnaka, K.; Driebe, T.; Hofmann, K. -H.; Schertl, D.; Weigelt,
   G.; Wittkowski, M.
2007AIPC..948..449O    Altcode:
  Two interferometric instruments at ESO's Very Large Telescope
  Interferometer (VLTI), MIDI and AMBER which operate in the mid-infrared
  (8-13 μm) and the near-infrared (JHK) respectively, have proven to
  be powerful tools to probe the circumstellar environment of evolved
  stars. Their spectro-interferometric capability enables us to observe
  objects with spectral and spatial information disentangled. VLTI
  observations confirm our pictures on the circumstellar environment of
  cool evolved stars in some cases but bring about entirely unexpected
  pictures for other cases. Here, we present particularly our recent
  results obtained with VLTI/MIDI.

---------------------------------------------------------
Title: 3D Radiative Transfer Modeling of Clumpy Dust Tori Around AGN
Authors: Hönig, S. F.; Beckert, T.; Ohnaka, K.; Weigelt, G.
2007ASPC..373..487H    Altcode: 2006astro.ph.11946H
  We present 3-dimensional radiative transfer models for clumpy dust tori
  around AGN. Our method combines Monte Carlo simulations of individual
  dust clouds with the actual 3-dimensional distribution of clouds in
  the torus. The model has been applied to NIR and MIR photometric
  and interferometric observations of NGC 1068. For the first time,
  it is possible to simultaneously reproduce both photometric and
  interferometric observations in the NIR and MIR. We infer a luminosity
  L=2×10<SUP>45</SUP> ergs/s and an inclination of i=70° for NGC 1068
  from our model.

---------------------------------------------------------
Title: AMBER/VLTI observations of η Carinae with high spatial
    resolution and spectral resolutions of λ/Δ λ = 1500 and 12 000
Authors: Weigelt, G.; Driebe, T.; Hofmann, K. -H.; Kraus, S.; Petrov,
   R.; Schertl, D.
2007NewAR..51..724W    Altcode:
  We present the first NIR interferometric observations of the
  LBV η Carinae with high spectral resolution [Weigelt et al.,
  2007. Near-infrared interferometry of η Carinae with spectral
  resolutions of 1500 and 12000 using AMBER/VLTI. A&amp;A 464, 87.]. Our
  observations demonstrate the potential of AMBER/VLTI to unveil new
  structures on the scales of milliarcseconds. The aim of this work is
  to study the wavelength dependence of η Car's optically thick wind
  region with a high spatial resolution of 5 mas (11 AU) and high spectral
  resolution. The observations were carried out with three 8.2 m VLTI
  Unit Telescopes. The raw data are interferograms obtained with spectral
  resolutions of λ/Δ λ = 1500 (MR-K mode) and 12 000 (HR-K mode). The
  observations were performed in the wavelength range around both the
  HeI 2.059 μm and the Brγ 2.166 μm emission lines. The spectrally
  dispersed AMBER interferograms allow us to investigate the wavelength
  dependence of the visibility, differential phase, and closure phase of
  η Car. If we fit [Hillier, D.J., Davidson, K., Ishibashi, K., Gull,
  T., 2001. On the Nature of the Central Source in η Carinae. ApJ 553,
  837] model visibilities (Hillier et al., 2001) to the observed AMBER
  visibilities, we obtain 50% encircled-energy diameters of 4.3, 6.5,
  and 9.6 mas in the 2.17 μm continuum, the HeI, and the Brγ emission
  lines, respectively. We find good agreement between the measured
  visibilities and the predictions of the radiative transfer model of
  Hillier et al. (2001). Our observations support theoretical models of
  anisotropic winds from fast-rotating, luminous hot stars with enhanced
  high-velocity mass loss near the polar regions.

---------------------------------------------------------
Title: In the intimacy of stars with AMBER at the VLTI
Authors: Malbet, F.; Petrov, R.; Weigelt, G.; Chesneau, O.; Domiciano
   de Souza, A.; Meilland, A.; Millour, F.; Tatulli, E.; Amber Consortium
2007sf2a.conf...13M    Altcode:
  The AMBER instrument installed at the Very Large Telescope (VLT)
  combines the beams from three telescopes to produce spectrally dispersed
  interference fringes with milli-arcsecond angular scales in the near
  infrared. Three years after installation, first scientific observations
  have been carried out mostly during the Science Demonstration Time
  and the Guaranteed Time. The first science has mainly focused on the
  environment of various types of stars. Because AMBER has dramatically
  increased the number of measures per baseline, this instrument brings
  strong constraints on morphology and models.

---------------------------------------------------------
Title: Resolving the B[e] star Hen 3-1191 at 10 μm with VLTI/MIDI
Authors: Lachaume, R.; Preibisch, Th.; Driebe, Th.; Weigelt, G.
2007A&A...469..587L    Altcode: 2007astro.ph..3736L
  We report spatially resolved, spectrally dispersed N-band observations
  of the B[e] star Hen 3-1191 with the MIDI instrument of the Very Large
  Telescope Interferometer. The object is resolved with a 40 m baseline
  and has an equivalent uniform disc diameter ranging from 24 mas at 8
  μm} to 36 mas at 13 {μm}. The MIDI spectrum and visibilities show a
  curvature which can arise from a weak silicate feature in which the
  object appears ≈15% larger than in the continuum, but this could
  result from a change in the object's geometry within the band. We
  then model Hen's 3-1191 spectral energy distribution (.4-60 μm)
  and N-band visibilities. Because of the unknown nature of the object,
  we use a wide variety of models for objects with IR excesses. We find
  the observations to be consistent with a disc featuring an unusually
  high mass accretion and a large central gap almost void of matter,
  an excretion disc, and a binary made of two IR sources. We are unable
  to find a circumstellar shell model consistent with the data. We
  review the different hypotheses concerning the physical nature of the
  star and conclude that it is neither a Be supergiant nor a symbiotic
  star. However, we could not discriminate between the scenario of a
  young stellar object featuring an unusually strong FU Orionis-like
  outburst of mass accretion (4-250×10<SUP>-4</SUP> M_⊙/{yr}) and
  that of a protoplanetary nebula with an equatorial mass excretion rate
  ⪆4 × 10<SUP>-5</SUP> M_⊙/yr. In both cases, taking the additional
  presence of an envelope or wind into account would result in lower mass
  flows. <P />Based on observations made with the Very Large Telescope
  Interferometer of the European Southern Observatory. Programme ID:
  073.C-0757.

---------------------------------------------------------
Title: GJ 900: A new hierarchical system with low-mass components
Authors: Malogolovets, E. V.; Balega, Yu. Yu.; Rastegaev, D. A.;
   Hofmann, K. -H.; Weigelt, G.
2007AstBu..62..117M    Altcode: 2007arXiv0707.2193M
  Speckle interferometric observations made with the 6 m telescope
  of the Special Astrophysical Observatory of the Russian Academy
  of Sciences in 2000 revealed the triple nature of the nearby ( π
  <SUB>Hip</SUB> = 51.80 ± 1.74 mas) low-mass young (≈ 200 Myr)
  star GJ 900. The configuration of the triple system allowed it to
  be dynamically unstable. Differential photometry performed from
  2000 through 2004 yielded I- and K-band absolute magnitudes and
  spectral types for the components to be I <SUB> A </SUB>=6.66±0.08,
  I <SUB> B </SUB>=9.15±0.11, I <SUB> C </SUB>=10.08±0.26,
  K <SUB> A </SUB>=4.84±0.08, K <SUB> B </SUB>=6.76±0.20, K
  <SUB> C </SUB>=7.39±0.31, Sp <SUB> A </SUB>≈K5-K7, Sp <SUB> B
  </SUB>≈M3-M4, Sp <SUB> C </SUB>≈M5-M6. The “mass-luminosity”
  relation is used to estimate the individual masses of the components:
  M <SUB> A </SUB>≈0.64 M <SUB>⊙</SUB>, M <SUB> B </SUB>≈0.21
  M <SUB>⊙</SUB>, M <SUB> C </SUB>≈0.13 M <SUB>⊙</SUB>. From
  the observations of the components’ relative motion in the period
  2000 2006, we conclude that GJ 900 is a hierarchical triple star
  with the possible orbital periods P<SUB>A-BC</SUB>≈80 yrs and
  P<SUB>BC</SUB>≈20 yrs. An analysis of the 2MASS images of the region
  around GJ 900 leads us to suggest that the system can include other
  very-low-mass components.

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Title: Visual/infrared interferometry of Orion Trapezium stars:
    preliminary dynamical orbit and aperture synthesis imaging of the
    θ<SUP>1</SUP> Orionis C system
Authors: Kraus, S.; Balega, Y. Y.; Berger, J. -P.; Hofmann, K. -H.;
   Millan-Gabet, R.; Monnier, J. D.; Ohnaka, K.; Pedretti, E.; Preibisch,
   Th.; Schertl, D.; Schloerb, F. P.; Traub, W. A.; Weigelt, G.
2007A&A...466..649K    Altcode: 2007astro.ph..2462K
  Context: Located in the Orion Trapezium cluster, θ^1Ori C is one of
  the youngest and nearest high-mass stars (O5-O7) known. Besides its
  unique properties as a magnetic rotator, the system is also known to
  be a close binary. <BR />Aims: By tracing its orbital motion, we aim
  to determine the orbit and dynamical mass of the system, yielding
  a characterization of the individual components and, ultimately,
  also new constraints for stellar evolution models in the high-mass
  regime. Furthermore, a dynamical parallax can be derived from the orbit,
  providing an independent estimate for the distance of the Trapezium
  cluster. <BR />Methods: Using new multi-epoch visual and near-infrared
  bispectrum speckle interferometric observations obtained at the BTA
  6 m telescope, and IOTA near-infrared long-baseline interferometry,
  we traced the orbital motion of the θ^1Ori C components over
  the interval 1997.8 to 2005.9, covering a significant arc of the
  orbit. Besides fitting the relative position and the flux ratio, we
  applied aperture synthesis techniques to our IOTA data to reconstruct a
  model-independent image of the θ^1Ori C binary system. <BR />Results:
  The orbital solutions suggest a highly eccentricity (e≈0.91) and
  short-period (P≈10.9 yrs) orbit. As the current astrometric data
  only allows rather weak constraints on the total dynamical mass,
  we present the two best-fit orbits. Of these two, the one implying
  a system mass of 48 M<SUB>⊙</SUB> and a distance of 434 pc to
  the Trapezium cluster can be favored. When also taking the measured
  flux ratio and the derived location in the HR-diagram into account,
  we find good agreement for all observables, assuming a spectral
  type of O5.5 for θ^1Ori C1 (M = 34.0 M<SUB>⊙</SUB>, T_eff = 39
  900 K) and O9.5 for C2 (M = 15.5 M<SUB>⊙</SUB>, T_eff = 31 900
  K). Using IOTA, we also obtained first interferometric observations
  on θ^1Ori D, finding some evidence for a resolved structure, maybe
  by a faint, close companion. <BR />Conclusions: We find indications
  that the companion C2 is massive itself, which makes it likely that
  its contribution to the intense UV radiation field of the Trapezium
  cluster is non-negligible. Furthermore, the high eccentricity of the
  preliminary orbit solution predicts a very small physical separation
  during periastron passage (∼1.5 AU, next passage around 2007.5),
  suggesting strong wind-wind interaction between the two O stars.

---------------------------------------------------------
Title: Temporal variations of the outer atmosphere and the dust shell
    of the carbon-rich Mira variable V Ophiuchi probed with VLTI/MIDI
Authors: Ohnaka, K.; Driebe, T.; Weigelt, G.; Wittkowski, M.
2007A&A...466.1099O    Altcode: 2007astro.ph..2226O
  Aims:We present the first multi-epoch N-band spectro-interferometric
  observations of the carbon-rich Mira variable <ASTROBJ>V Oph</ASTROBJ>
  using MIDI at the ESO's Very Large Telescope Interferometer. Our
  aim is to study temporal variations of physical properties of
  the outer atmosphere and the circumstellar dust shell based on
  spectrally-dispersed N-band visibilities over the C2H2 (+HCN)
  features and the dust emission. <BR />Methods: Our MIDI observations
  were carried out at three different phases 0.18, 0.49, and 0.65,
  with three different baselines (projected baseline lengths of 42-124
  m) using four 8.2 m Unit Telescopes (UT2-UT4, UT1-UT4, and UT2-UT3
  baseline configurations). <BR />Results: The wavelength dependence of
  the uniform-disk diameters obtained at all epochs is characterized
  by a roughly constant region between 8 and 10 μm with a slight dip
  centered at 9.5 μm and a gradual increase longward of 10 μm. These
  N-band angular sizes are significantly larger than the estimated
  photospheric size of V Oph. The angular sizes observed at different
  epochs reveal that the object appears smaller at phase 0.49 (minimum
  light) with uniform-disk diameters of 5-12 mas than at phases 0.18
  ( 12-20 mas) and 0.65 ( 9-15 mas). We interpret these results with
  a model consisting of optically thick C2H2 layers and an optically
  thin dust shell. Our modeling suggests that the C2H2 layers around
  V Oph are more extended ( 1.7-1.8 R<SUB>star</SUB>) at phases 0.18
  and 0.65 than at phase 0.49 ( 1.4 R<SUB>star</SUB>) and that the
  C2H2 column densities appear to be the smallest at phase 0.49. We
  also find that the dust shell consists of amorphous carbon and SiC
  with an inner radius of 2.5 R<SUB>star</SUB>, and the total optical
  depths of τ<SUB>V</SUB> ≈ 0.6-0.9 (τ<SUB>11.3 μm</SUB> ≈
  0.003 and 0.004 for amorphous carbon and SiC, respectively) found at
  phases 0.18 and 0.65 are higher than the value obtained at phase 0.49,
  τ<SUB>V</SUB> ≈ 0.3 (τ<SUB>11.3 μm</SUB> ≈ 0.001 and 0.002 for
  amorphous carbon and SiC, respectively). <BR />Conclusions: Our MIDI
  observations and modeling indicate that carbon-rich Miras also have
  extended layers of polyatomic molecules as previously confirmed in
  oxygen-rich Miras. The temporal variation of the N-band angular size is
  largely governed by the variations of the opacity and the geometrical
  extension of the C2H2 layers and the dust shell, and consequently,
  this masks the size variation of the photosphere. Also, the observed
  weakness of the mid-infrared C2H2 absorption in carbon-rich Miras
  can be explained by the emission from the extended C2H2 layers and
  the dust shell. <P />Based on observations made with the Very Large
  Telescope Interferometer of the European Southern Observatory. Program
  ID: 075.D-0607. Table 4 is only available in electronic form at the
  CDS via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5) or via
  http://cdsweb.u-strasbg.fr/cgi-bin/qcat?J/A+A/466/1099

---------------------------------------------------------
Title: First AMBER/VLTI Science
Authors: Malbet, F.; Petrov, R.; Weigelt, G.; Chesneau, O.; Domiciano
   de Souza, A.; Meilland, A.; Millour, F.; Tatulli, E.; Amber Consortium
2007Msngr.127...37M    Altcode:
  Three years after the installation of AMBER, the first scientific
  observations have been carried out mostly during Science Demonstration
  Time and Guaranteed Time. The first science has mainly focused on the
  environment of various types of stars. Observations described are:
  the discs and wind in the young star MWC297; the rotating gas envelope
  around the hot active star CPD-57 2874; mass loss from the massive star
  Eta Carinae; the colliding wind WR and O star binary gamma2 Velorum;
  the outburst of the recurrent nova RS Oph.

---------------------------------------------------------
Title: AMBER, the near-infrared spectro-interferometric
    three-telescope VLTI instrument
Authors: Petrov, R. G.; Malbet, F.; Weigelt, G.; Antonelli, P.;
   Beckmann, U.; Bresson, Y.; Chelli, A.; Dugué, M.; Duvert, G.;
   Gennari, S.; Glück, L.; Kern, P.; Lagarde, S.; Le Coarer, E.; Lisi,
   F.; Millour, F.; Perraut, K.; Puget, P.; Rantakyrö, F.; Robbe-Dubois,
   S.; Roussel, A.; Salinari, P.; Tatulli, E.; Zins, G.; Accardo, M.;
   Acke, B.; Agabi, K.; Altariba, E.; Arezki, B.; Aristidi, E.; Baffa,
   C.; Behrend, J.; Blöcker, T.; Bonhomme, S.; Busoni, S.; Cassaing,
   F.; Clausse, J. -M.; Colin, J.; Connot, C.; Delboulbé, A.; Domiciano
   de Souza, A.; Driebe, T.; Feautrier, P.; Ferruzzi, D.; Forveille,
   T.; Fossat, E.; Foy, R.; Fraix-Burnet, D.; Gallardo, A.; Giani, E.;
   Gil, C.; Glentzlin, A.; Heiden, M.; Heininger, M.; Hernandez Utrera,
   O.; Hofmann, K. -H.; Kamm, D.; Kiekebusch, M.; Kraus, S.; Le Contel,
   D.; Le Contel, J. -M.; Lesourd, T.; Lopez, B.; Lopez, M.; Magnard,
   Y.; Marconi, A.; Mars, G.; Martinot-Lagarde, G.; Mathias, P.; Mège,
   P.; Monin, J. -L.; Mouillet, D.; Mourard, D.; Nussbaum, E.; Ohnaka,
   K.; Pacheco, J.; Perrier, C.; Rabbia, Y.; Rebattu, S.; Reynaud, F.;
   Richichi, A.; Robini, A.; Sacchettini, M.; Schertl, D.; Schöller,
   M.; Solscheid, W.; Spang, A.; Stee, P.; Stefanini, P.; Tallon, M.;
   Tallon-Bosc, I.; Tasso, D.; Testi, L.; Vakili, F.; von der Lühe,
   O.; Valtier, J. -C.; Vannier, M.; Ventura, N.
2007A&A...464....1P    Altcode:
  Context: Optical long-baseline interferometry is moving a crucial
  step forward with the advent of general-user scientific instruments
  that equip large aperture and hectometric baseline facilities,
  such as the Very Large Telescope Interferometer (VLTI). <BR />Aims:
  AMBER is one of the VLTI instruments that combines up to three beams
  with low, moderate and high spectral resolutions in order to provide
  milli-arcsecond spatial resolution for compact astrophysical sources
  in the near-infrared wavelength domain. Its main specifications are
  based on three key programs on young stellar objects, active galactic
  nuclei central regions, masses, and spectra of hot extra-solar
  planets. <BR />Methods: These key science goals led to scientific
  specifications, which were used to propose and then validate the
  instrument concept. AMBER uses single-mode fibers to filter the entrance
  signal and to reach highly accurate, multiaxial three-beam combination,
  yielding three baselines and a closure phase, three spectral dispersive
  elements, and specific self-calibration procedures. <BR />Results: The
  AMBER measurements yield spectrally dispersed calibrated visibilities,
  color-differential complex visibilities, and a closure phase allows
  astronomers to contemplate rudimentary imaging and highly accurate
  visibility and phase differential measurements. AMBER was installed
  in 2004 at the Paranal Observatory. We describe here the present
  implementation of the instrument in the configuration with which the
  astronomical community can access it. <BR />Conclusions: .After two
  years of commissioning tests and preliminary observations, AMBER has
  produced its first refereed publications, allowing assessment of its
  scientific potential.

---------------------------------------------------------
Title: An asymmetry detected in the disk of <ASTROBJ>κ Canis
    Majoris</ASTROBJ> with AMBER/VLTI
Authors: Meilland, A.; Millour, F.; Stee, P.; Domiciano de Souza, A.;
   Petrov, R. G.; Mourard, D.; Jankov, S.; Robbe-Dubois, S.; Spang, A.;
   Aristidi, E.; Antonelli, P.; Beckmann, U.; Bresson, Y.; Chelli, A.;
   Dugué, M.; Duvert, G.; Gennari, S.; Glück, L.; Kern, P.; Lagarde,
   S.; Le Coarer, E.; Lisi, F.; Malbet, F.; Perraut, K.; Puget, P.;
   Rantakyrö, F.; Roussel, A.; Tatulli, E.; Weigelt, G.; Zins, G.;
   Accardo, M.; Acke, B.; Agabi, K.; Altariba, E.; Arezki, B.; Baffa,
   C.; Behrend, J.; Blöcker, T.; Bonhomme, S.; Busoni, S.; Cassaing,
   F.; Clausse, J. -M.; Colin, J.; Connot, C.; Delboulbé, A.; Driebe,
   T.; Feautrier, P.; Ferruzzi, D.; Forveille, T.; Fossat, E.; Foy,
   R.; Fraix-Burnet, D.; Gallardo, A.; Giani, E.; Gil, C.; Glentzlin,
   A.; Heiden, M.; Heininger, M.; Hernandez Utrera, O.; Hofmann, K. -H.;
   Kamm, D.; Kiekebusch, M.; Kraus, S.; Le Contel, D.; Le Contel, J. -M.;
   Lesourd, T.; Lopez, B.; Lopez, M.; Magnard, Y.; Marconi, A.; Mars, G.;
   Martinot-Lagarde, G.; Mathias, P.; Mège, P.; Monin, J. -L.; Mouillet,
   D.; Nussbaum, E.; Ohnaka, K.; Pacheco, J.; Perrier, C.; Rabbia, Y.;
   Rebattu, S.; Reynaud, F.; Richichi, A.; Robini, A.; Sacchettini, M.;
   Schertl, D.; Schöller, M.; Solscheid, W.; Stefanini, P.; Tallon,
   M.; Tallon-Bosc, I.; Tasso, D.; Testi, L.; Vakili, F.; von der Lühe,
   O.; Valtier, J. -C.; Vannier, M.; Ventura, N.
2007A&A...464...73M    Altcode: 2006astro.ph.11563M
  Aims:We study the geometry and kinematics of the circumstellar
  environment of the Be star κ CMa in the Brγ emission line and its
  nearby continuum. <BR />Methods: We use the AMBER/VLTI instrument
  operating in the K band, which provides a spatial resolution of about 6
  mas with a spectral resolution of 1500, to study the kinematics within
  the disk and to infer its rotation law. To obtain more kinematical
  constraints we also use a high spectral resolution Paβ line profile
  obtain in December 2005 at the Observatorio do Pico do Dios, Brazil and
  we compile V/R line profile variations and spectral energy distribution
  data points from the literature. <BR />Results: Using differential
  visibilities and differential phases across the Brγ line we detect an
  asymmetry in the disk. Moreover, we found that κ CMa seems difficult to
  fit within the classical scenario for Be stars, illustrated recently
  by α Arae observations, i.e. a fast rotating B star close to its
  breakup velocity surrounded by a Keplerian circumstellar disk with
  an enhanced polar wind. We discuss the possibility that κ CMa is a
  critical rotator with a Keplerian rotating disk and examine whether if
  the detected asymmetry can be interpreted within the “one-armed”
  viscous disk framework. <P />Based on observations collected at the
  European Southern Observatory, Paranal, Chile, within the guaranteed
  time programme 074.A-9025(A).

---------------------------------------------------------
Title: Constraining the wind launching region in Herbig Ae stars:
    AMBER/VLTI spectroscopy of HD 104237
Authors: Tatulli, E.; Isella, A.; Natta, A.; Testi, L.; Marconi, A.;
   Malbet, F.; Stee, P.; Petrov, R. G.; Millour, F.; Chelli, A.; Duvert,
   G.; Antonelli, P.; Beckmann, U.; Bresson, Y.; Dugué, M.; Gennari, S.;
   Glück, L.; Kern, P.; Lagarde, S.; Le Coarer, E.; Lisi, F.; Perraut,
   K.; Puget, P.; Rantakyrö, F.; Robbe-Dubois, S.; Roussel, A.; Weigelt,
   G.; Zins, G.; Accardo, M.; Acke, B.; Agabi, K.; Altariba, E.; Arezki,
   B.; Aristidi, E.; Baffa, C.; Behrend, J.; Blöcker, T.; Bonhomme,
   S.; Busoni, S.; Cassaing, F.; Clausse, J. -M.; Colin, J.; Connot,
   C.; Delboulbé, A.; Domiciano de Souza, A.; Driebe, T.; Feautrier,
   P.; Ferruzzi, D.; Forveille, T.; Fossat, E.; Foy, R.; Fraix-Burnet,
   D.; Gallardo, A.; Giani, E.; Gil, C.; Glentzlin, A.; Heiden, M.;
   Heininger, M.; Hernandez Utrera, O.; Hofmann, K. -H.; Kamm, D.;
   Kiekebusch, M.; Kraus, S.; Le Contel, D.; Le Contel, J. -M.; Lesourd,
   T.; Lopez, B.; Lopez, M.; Magnard, Y.; Mars, G.; Martinot-Lagarde,
   G.; Mathias, P.; Mège, P.; Monin, J. -L.; Mouillet, D.; Mourard,
   D.; Nussbaum, E.; Ohnaka, K.; Pacheco, J.; Perrier, C.; Rabbia, Y.;
   Rebattu, S.; Reynaud, F.; Richichi, A.; Robini, A.; Sacchettini, M.;
   Schertl, D.; Schöller, M.; Solscheid, W.; Spang, A.; Stefanini, P.;
   Tallon, M.; Tallon-Bosc, I.; Tasso, D.; Vakili, F.; von der Lühe,
   O.; Valtier, J. -C.; Vannier, M.; Ventura, N.
2007A&A...464...55T    Altcode: 2006astro.ph..6684T
  Aims:We investigate the origin of the Brγ emission of the Herbig
  Ae star HD 104237 on Astronomical Unit (AU) scales. <BR />Methods:
  Using AMBER/VLTI at a spectral resolution R=1500 we spatially resolve
  the emission in both the Brγ line and the adjacent continuum. <BR
  />Results: The visibility does not vary between the continuum and the
  Brγ line, even though the line is strongly detected in the spectrum,
  with a peak intensity 35% above the continuum. This demonstrates that
  the line and continuum emission have similar size scales. We assume that
  the K-band continuum excess originates in a “puffed-up” inner rim
  of the circumstellar disk, and discuss the likely origin of Brγ. <BR
  />Conclusions: .We conclude that this emission most likely arises from
  a compact disk wind, launched from a region 0.2-0.5 AU from the star,
  with a spatial extent similar to that of the near infrared continuum
  emission region, i.e., very close to the inner rim location. <P />Based
  on observations collected at the European Southern Observatory, Paranal,
  Chile, within the guaranteed time programme 074.A-9025(A).

---------------------------------------------------------
Title: Disk and wind interaction in the young stellar object
    <ASTROBJ>MWC 297</ASTROBJ> spatially resolved with AMBER/VLTI
Authors: Malbet, F.; Benisty, M.; de Wit, W. -J.; Kraus, S.; Meilland,
   A.; Millour, F.; Tatulli, E.; Berger, J. -P.; Chesneau, O.; Hofmann,
   K. -H.; Isella, A.; Natta, A.; Petrov, R. G.; Preibisch, T.; Stee,
   P.; Testi, L.; Weigelt, G.; Antonelli, P.; Beckmann, U.; Bresson, Y.;
   Chelli, A.; Dugué, M.; Duvert, G.; Gennari, S.; Glück, L.; Kern,
   P.; Lagarde, S.; Le Coarer, E.; Lisi, F.; Perraut, K.; Puget, P.;
   Rantakyrö, F.; Robbe-Dubois, S.; Roussel, A.; Zins, G.; Accardo,
   M.; Acke, B.; Agabi, K.; Altariba, E.; Arezki, B.; Aristidi, E.;
   Baffa, C.; Behrend, J.; Blöcker, T.; Bonhomme, S.; Busoni, S.;
   Cassaing, F.; Clausse, J. -M.; Colin, J.; Connot, C.; Delboulbé,
   A.; Domiciano de Souza, A.; Driebe, T.; Feautrier, P.; Ferruzzi, D.;
   Forveille, T.; Fossat, E.; Foy, R.; Fraix-Burnet, D.; Gallardo, A.;
   Giani, E.; Gil, C.; Glentzlin, A.; Heiden, M.; Heininger, M.; Hernandez
   Utrera, O.; Kamm, D.; Kiekebusch, M.; Le Contel, D.; Le Contel, J. -M.;
   Lesourd, T.; Lopez, B.; Lopez, M.; Magnard, Y.; Marconi, A.; Mars, G.;
   Martinot-Lagarde, G.; Mathias, P.; Mège, P.; Monin, J. -L.; Mouillet,
   D.; Mourard, D.; Nussbaum, E.; Ohnaka, K.; Pacheco, J.; Perrier,
   C.; Rabbia, Y.; Rebattu, S.; Reynaud, F.; Richichi, A.; Robini, A.;
   Sacchettini, M.; Schertl, D.; Schöller, M.; Solscheid, W.; Spang,
   A.; Stefanini, P.; Tallon, M.; Tallon-Bosc, I.; Tasso, D.; Vakili,
   F.; von der Lühe, O.; Valtier, J. -C.; Vannier, M.; Ventura, N.
2007A&A...464...43M    Altcode: 2005astro.ph.10350M
  The young stellar object <ASTROBJ>MWC 297</ASTROBJ> is an embedded
  B1.5Ve star exhibiting strong hydrogen emission lines and a strong
  near-infrared continuum excess. This object has been observed with
  the VLT interferometer equipped with the AMBER instrument during
  its first commissioning run. AMBER/VLTI is currently the only
  near infrared interferometer that can observe spectrally dispersed
  visibilities. <ASTROBJ>MWC 297</ASTROBJ> has been spatially resolved in
  the continuum with a visibility of 0.50<SUP>+0.08</SUP><SUB>-0.10</SUB>
  as well as in the Brγ emission line where the visibility decreases
  to 0.33±0.06. This change in the visibility with wavelength can be
  interpreted by the presence of an optically thick disk responsible for
  the visibility in the continuum and of a stellar wind traced by the
  Brγ emission line and whose apparent size is 40% larger. We validate
  this interpretation by building a model of the stellar environment
  that combines a geometrically thin, optically thick accretion disk
  model consisting of gas and dust, and a latitude-dependent stellar
  wind outflowing above the disk surface. The continuum emission and
  visibilities obtained from this model are fully consistent with the
  interferometric AMBER data. They agree also with existing optical,
  near-infrared spectra and other broad-band near-infrared interferometric
  visibilities. We also reproduce the shape of the visibilities in the
  Brγ line as well as the profile of this line obtained at an higher
  spectral resolution with the VLT/ISAAC spectrograph, and those of
  the Hα and Hβ lines. The disk and wind models yield a consistent
  inclination of the system of approximately 20°. A picture emerges in
  which <ASTROBJ>MWC 297</ASTROBJ> is surrounded by an equatorial flat
  disk that is possibly still accreting and an outflowing wind that has
  a much higher velocity in the polar region than at the equator. The
  AMBER/VLTI unique capability of measuring spectral visibilities
  therefore allows us for the first time to compare the apparent geometry
  of a wind with the disk structure in a young stellar system. <P />Based
  on observations collected at the European Southern Observatory, Paranal,
  Chile, within the commissioning programme 60.A-9054(A).

---------------------------------------------------------
Title: Near-infrared interferometry of <ASTROBJ>η Carinae</ASTROBJ>
    with spectral resolutions of 1 500 and 12 000 using AMBER/VLTI
Authors: Weigelt, G.; Kraus, S.; Driebe, T.; Petrov, R. G.; Hofmann,
   K. -H.; Millour, F.; Chesneau, O.; Schertl, D.; Malbet, F.; Hillier,
   J. D.; Gull, T.; Davidson, K.; Domiciano de Souza, A.; Antonelli,
   P.; Beckmann, U.; Bresson, Y.; Chelli, A.; Dugué, M.; Duvert, G.;
   Gennari, S.; Glück, L.; Kern, P.; Lagarde, S.; Le Coarer, E.; Lisi,
   F.; Perraut, K.; Puget, P.; Rantakyrö, F.; Robbe-Dubois, S.; Roussel,
   A.; Tatulli, E.; Zins, G.; Accardo, M.; Acke, B.; Agabi, K.; Altariba,
   E.; Arezki, B.; Aristidi, E.; Baffa, C.; Behrend, J.; Blöcker, T.;
   Bonhomme, S.; Busoni, S.; Cassaing, F.; Clausse, J. -M.; Colin, J.;
   Connot, C.; Delboulbé, A.; Feautrier, P.; Ferruzzi, D.; Forveille,
   T.; Fossat, E.; Foy, R.; Fraix-Burnet, D.; Gallardo, A.; Giani, E.;
   Gil, C.; Glentzlin, A.; Heiden, M.; Heininger, M.; Hernandez Utrera,
   O.; Kamm, D.; Kiekebusch, M.; Le Contel, D.; Le Contel, J. -M.;
   Lesourd, T.; Lopez, B.; Lopez, M.; Magnard, Y.; Marconi, A.; Mars,
   G.; Martinot-Lagarde, G.; Mathias, P.; Mège, P.; Monin, J. -L.;
   Mouillet, D.; Mourard, D.; Nussbaum, E.; Ohnaka, K.; Pacheco, J.;
   Perrier, C.; Rabbia, Y.; Rebattu, S.; Reynaud, F.; Richichi, A.;
   Robini, A.; Sacchettini, M.; Schöller, M.; Solscheid, W.; Spang,
   A.; Stee, P.; Stefanini, P.; Tallon, M.; Tallon-Bosc, I.; Tasso, D.;
   Testi, L.; Vakili, F.; von der Lühe, O.; Valtier, J. -C.; Vannier,
   M.; Ventura, N.; Weis, K.; Wittkowski, M.
2007A&A...464...87W    Altcode: 2006astro.ph..9715W
  Aims: We present the first NIR spectro-interferometry of the LBV
  <ASTROBJ>η Carinae</ASTROBJ>. The observations were performed with
  the AMBER instrument of the ESO Very Large Telescope Interferometer
  (VLTI) using baselines from 42 to 89 m. The aim of this work is to
  study the wavelength dependence of η Car's optically thick wind
  region with a high spatial resolution of 5 mas (11 AU) and high
  spectral resolution. <BR />Methods: The observations were carried
  out with three 8.2 m Unit Telescopes in the K-band. The raw data are
  spectrally dispersed interferograms obtained with spectral resolutions
  of 1500 (MR-K mode) and 12 000 (HR-K mode). The MR-K observations
  were performed in the wavelength range around both the He I 2.059 μm
  and the Brγ 2.166 μm emission lines, the HR-K observations only in
  the Brγ line region. <BR />Results: The spectrally dispersed AMBER
  interferograms allow the investigation of the wavelength dependence of
  the visibility, differential phase, and closure phase of η Car. In
  the K-band continuum, a diameter of 4.0±0.2 mas (Gaussian FWHM, fit
  range 28-89 m baseline length) was measured for η Car's optically
  thick wind region. If we fit Hillier et al. (2001, ApJ, 553, 837)
  model visibilities to the observed AMBER visibilities, we obtain 50%
  encircled-energy diameters of 4.2, 6.5 and 9.6 mas in the 2.17 μm
  continuum, the He I, and the Brγ emission lines, respectively. In
  the continuum near the Brγ line, an elongation along a position
  angle of 120°±15° was found, consistent with previous VINCI/VLTI
  measurements by van Boekel et al. (2003, A&amp;A, 410, L37). We compare
  the measured visibilities with predictions of the radiative transfer
  model of Hillier et al. (2001), finding good agreement. Furthermore, we
  discuss the detectability of the hypothetical hot binary companion. For
  the interpretation of the non-zero differential and closure phases
  measured within the Brγ line, we present a simple geometric model of
  an inclined, latitude-dependent wind zone. Our observations support
  theoretical models of anisotropic winds from fast-rotating, luminous hot
  stars with enhanced high-velocity mass loss near the polar regions. <P
  />Based on observations collected at the European Southern Observatory,
  Paranal, Chile, within the AMBER guaranteed time programme 074.A-9025
  and the VLTI science demonstration programme 074.A-9024.

---------------------------------------------------------
Title: Interferometric data reduction with AMBER/VLTI. Principle,
    estimators, and illustration
Authors: Tatulli, E.; Millour, F.; Chelli, A.; Duvert, G.; Acke, B.;
   Hernandez Utrera, O.; Hofmann, K. -H.; Kraus, S.; Malbet, F.; Mège,
   P.; Petrov, R. G.; Vannier, M.; Zins, G.; Antonelli, P.; Beckmann, U.;
   Bresson, Y.; Dugué, M.; Gennari, S.; Glück, L.; Kern, P.; Lagarde,
   S.; Le Coarer, E.; Lisi, F.; Perraut, K.; Puget, P.; Rantakyrö,
   F.; Robbe-Dubois, S.; Roussel, A.; Weigelt, G.; Accardo, M.; Agabi,
   K.; Altariba, E.; Arezki, B.; Aristidi, E.; Baffa, C.; Behrend,
   J.; Blöcker, T.; Bonhomme, S.; Busoni, S.; Cassaing, F.; Clausse,
   J. -M.; Colin, J.; Connot, C.; Delboulbé, A.; Domiciano de Souza,
   A.; Driebe, T.; Feautrier, P.; Ferruzzi, D.; Forveille, T.; Fossat,
   E.; Foy, R.; Fraix-Burnet, D.; Gallardo, A.; Giani, E.; Gil, C.;
   Glentzlin, A.; Heiden, M.; Heininger, M.; Kamm, D.; Kiekebusch, M.;
   Le Contel, D.; Le Contel, J. -M.; Lesourd, T.; Lopez, B.; Lopez, M.;
   Magnard, Y.; Marconi, A.; Mars, G.; Martinot-Lagarde, G.; Mathias,
   P.; Monin, J. -L.; Mouillet, D.; Mourard, D.; Nussbaum, E.; Ohnaka,
   K.; Pacheco, J.; Perrier, C.; Rabbia, Y.; Rebattu, S.; Reynaud, F.;
   Richichi, A.; Robini, A.; Sacchettini, M.; Schertl, D.; Schöller,
   M.; Solscheid, W.; Spang, A.; Stee, P.; Stefanini, P.; Tallon, M.;
   Tallon-Bosc, I.; Tasso, D.; Testi, L.; Vakili, F.; von der Lühe,
   O.; Valtier, J. -C.; Ventura, N.
2007A&A...464...29T    Altcode: 2006astro.ph..3046T
  Aims:In this paper, we present an innovative data reduction method
  for single-mode interferometry. It has been specifically developed
  for the AMBER instrument, the three-beam combiner of the Very Large
  Telescope Interferometer, but it can be derived for any single-mode
  interferometer. <BR />Methods: The algorithm is based on a direct
  modelling of the fringes in the detector plane. As such, it requires
  a preliminary calibration of the instrument in order to obtain the
  calibration matrix that builds the linear relationship between the
  interferogram and the interferometric observable, which is the complex
  visibility. Once the calibration procedure has been performed, the
  signal processing appears to be a classical least-square determination
  of a linear inverse problem. From the estimated complex visibility,
  we derive the squared visibility, the closure phase, and the spectral
  differential phase. <BR />Results: The data reduction procedures have
  been gathered into the so-called amdlib software, now available for
  the community, and are presented in this paper. Furthermore, each
  step in this original algorithm is illustrated and discussed from
  various on-sky observations conducted with the VLTI, with a focus on
  the control of the data quality and the effective execution of the data
  reduction procedures. We point out the present limited performances of
  the instrument due to VLTI instrumental vibrations which are difficult
  to calibrate. <P />Based on observations collected <P />at the European
  Southern Observatory, Paranal, Chile.

---------------------------------------------------------
Title: AMBER/VLTI and MIDI/VLTI spectro-interferometric observations
    of the B[e] supergiant <ASTROBJ>CPD-57°2874</ASTROBJ>. Size and
    geometry of the circumstellar envelope in the near- and mid-IR
Authors: Domiciano de Souza, A.; Driebe, T.; Chesneau, O.; Hofmann,
   K. -H.; Kraus, S.; Miroshnichenko, A. S.; Ohnaka, K.; Petrov,
   R. G.; Preisbisch, T.; Stee, P.; Weigelt, G.; Lisi, F.; Malbet, F.;
   Richichi, A.
2007A&A...464...81D    Altcode: 2005astro.ph.10735D
  We present the first high spatial and spectral resolution
  observations of the circumstellar envelope (CSE) of a B[e] supergiant
  (CPD-57°2874), performed with the Very Large Telescope Interferometer
  (VLTI). Spectra, visibilities and closure phase were obtained using
  the beam-combiner instruments AMBER (near-IR interferometry with
  three 8.3 m Unit Telescopes or UTs) and MIDI (mid-IR interferometry
  with two UTs). The interferometric observations of the CSE are well
  fitted by an elliptical Gaussian model with FWHM diameters varying
  linearly with wavelength. Typical diameters measured are ≃1.8×3.4
  mas or ≃4.5×8.5 AU (adopting a distance of 2.5 kpc) at 2.2 μm,
  and ≃12×15 mas or ≃30×38 AU at 12 μm. The size of the region
  emitting the Brγ flux is ≃2.8×5.2 mas or ≃7.0×13.0 AU. The
  major-axis position angle of the elongated CSE in the mid-IR (≃144°)
  agrees well with previous polarimetric data, hinting that the hot-dust
  emission originates in a disk-like structure. In addition to the
  interferometric observations we also present new optical (UBVR_cI_c) and
  near-IR (JHKL) broadband photometric observations of CPD-57°2874. Our
  spectro-interferometric VLTI observations and data analysis support
  the non-spherical CSE paradigm for B[e] supergiants. <P />Based on
  observations collected at the European Southern Observatory, Paranal,
  Chile, within the AMBER science demonstration time programme 074.A-9026
  and the MIDI open time programme 074.D-0101.

---------------------------------------------------------
Title: Accurate masses of low mass stars GJ 765.2AB (0.83
    M<SUB>⊙</SUB> + 0.76 M<SUB>⊙</SUB>)
Authors: Balega, Y. Y.; Beuzit, J. -L.; Delfosse, X.; Forveille, T.;
   Perrier, C.; Mayor, M.; Ségransan, D.; Udry, S.; Tokovinin, A. A.;
   Schertl, D.; Weigelt, G.; Balega, I. I.; Malogolovets, E. V.
2007A&A...464..635B    Altcode:
  Context: Because of the lack of precise masses, the coverage of
  the main-sequence empirical mass-luminosity relation for stars
  in the mass range from 0.6 M<SUB>⊙</SUB> to 0.9 M<SUB>⊙</SUB>
  is incomplete. The nearby K-type visual and spectroscopic binary GJ
  765.2 = MLR 224 is a good candidate for new reliable points in this
  significant part of the relation. <BR />Aims: We have found a combined
  orbital solution for the pair and derived physical properties of the
  components using interferometric and spectroscopic data. <BR />Methods:
  The diffraction-limited speckle observations were mostly collected
  at the 6 m BTA telescope, and the velocities of the components were
  obtained using the CORAVEL radial velocity scanner on the Swiss 1 m
  telescope. <BR />Results: In a combined solution, the orbital period
  is found to be 11.919 yr. The masses of the GJ 765.2 components are
  M<SUB>A</SUB>=0.831± 0.020 M<SUB>⊙</SUB> and M<SUB>B</SUB>=0.763±
  0.019 M<SUB>⊙</SUB>. The obtained orbital parallax of the system,
  π_orb=31.0±0.5 mas, is 7 percent lower than the Hipparcos value. The
  absolute V magnitudes of the stars, derived from the measured speckle
  magnitude differences, are: M<SUB>V</SUB><SUP>A</SUP>=5.99±0.04
  and M<SUB>V</SUB><SUP>B</SUP>=6.64±0.05. The effective
  temperatures of the components, T_eff<SUP>A</SUP>=5060±130 K and
  T_eff<SUP>B</SUP>=4690±160 K, follow from the V-K and J-K color
  indices. The star metallicity value, estimated from the 6 m telescope
  spectrum, is [M/H]=-0.35±0.15 dex. <BR />Conclusions: .The presented
  individual masses have 2.4% and 2.5% relative accuracies. Therefore,
  the components of GJ 765.2 rank among a dozen stars with masses accurate
  to within a few percent in the mass range 0.6-0.9 M<SUB>⊙</SUB>. The
  existing data on the kinematics of GJ 765.2 and its chromospheric
  activity indicate that the binary belongs to the middle age (3-4×
  10<SUP>9</SUP> yr) thin disk population of the galaxy. <P />Based on
  observations made with the 6 m BTA telescope, which is operated by
  the Special Astrophysical Observatory, Russia, and the Observatoire
  de Haute-Provence, operated by the Centre National de la Recherche
  Scientifique de France. Tables 1 and 2 are only available in electronic
  form at http://www.aanda.org

---------------------------------------------------------
Title: Direct constraint on the distance of γ<SUP>2</SUP> Velorum
    from AMBER/VLTI observations
Authors: Millour, F.; Petrov, R. G.; Chesneau, O.; Bonneau, D.;
   Dessart, L.; Bechet, C.; Tallon-Bosc, I.; Tallon, M.; Thiébaut,
   E.; Vakili, F.; Malbet, F.; Mourard, D.; Antonelli, P.; Beckmann,
   U.; Bresson, Y.; Chelli, A.; Dugué, M.; Duvert, G.; Gennari, S.;
   Glück, L.; Kern, P.; Lagarde, S.; Le Coarer, E.; Lisi, F.; Perraut,
   K.; Puget, P.; Rantakyrö, F.; Robbe-Dubois, S.; Roussel, A.; Tatulli,
   E.; Weigelt, G.; Zins, G.; Accardo, M.; Acke, B.; Agabi, K.; Altariba,
   E.; Arezki, B.; Aristidi, E.; Baffa, C.; Behrend, J.; Blöcker, T.;
   Bonhomme, S.; Busoni, S.; Cassaing, F.; Clausse, J. -M.; Colin, J.;
   Connot, C.; Delboulbé, A.; Domiciano de Souza, A.; Driebe, T.;
   Feautrier, P.; Ferruzzi, D.; Forveille, T.; Fossat, E.; Foy, R.;
   Fraix-Burnet, D.; Gallardo, A.; Giani, E.; Gil, C.; Glentzlin, A.;
   Heiden, M.; Heininger, M.; Hernandez Utrera, O.; Hofmann, K. -H.;
   Kamm, D.; Kiekebusch, M.; Kraus, S.; Le Contel, D.; Le Contel,
   J. -M.; Lesourd, T.; Lopez, B.; Lopez, M.; Magnard, Y.; Marconi,
   A.; Mars, G.; Martinot-Lagarde, G.; Mathias, P.; Mège, P.; Monin,
   J. -L.; Mouillet, D.; Nussbaum, E.; Ohnaka, K.; Pacheco, J.; Perrier,
   C.; Rabbia, Y.; Rebattu, S.; Reynaud, F.; Richichi, A.; Robini, A.;
   Sacchettini, M.; Schertl, D.; Schöller, M.; Solscheid, W.; Spang,
   A.; Stee, P.; Stefanini, P.; Tasso, D.; Testi, L.; von der Lühe,
   O.; Valtier, J. -C.; Vannier, M.; Ventura, N.
2007A&A...464..107M    Altcode: 2006astro.ph.10936M
  Context: Interferometry can provide spatially resolved observations of
  massive star binary systems and their colliding winds, which thus far
  have been studied mostly with spatially unresolved observations. <BR
  />Aims: We present the first AMBER/VLTI observations, taken at
  orbital phase 0.32, of the Wolf-Rayet and O (WR+O) star binary system
  <ASTROBJ>γ2 Velorum</ASTROBJ> and use the interferometric observables
  to constrain its properties. <BR />Methods: The AMBER/VLTI instrument
  was used with the telescopes UT2, UT3, and UT4 on baselines ranging
  from 46 m to 85 m. It delivered spectrally dispersed visibilities,
  as well as differential and closure phases, with a resolution R=1500
  in the spectral band 1.95-2.17 μm. We interpret these data in the
  context of a binary system with unresolved components, neglecting in a
  first approximation the wind-wind collision zone flux contribution. <BR
  />Results: Using WR- and O-star synthetic spectra, we show that the
  AMBER/VLTI observables result primarily from the contribution of the
  individual components of the WR+O binary system. We discuss several
  interpretations of the residuals, and speculate on the detection of an
  additional continuum component, originating from the free-free emission
  associated with the wind-wind collision zone (WWCZ), and contributing at
  most to the observed K-band flux at the 5% level. Based on the accurate
  spectroscopic orbit and the Hipparcos distance, the expected absolute
  separation and position angle at the time of observations were 5.1±0.9
  mas and 66±15°, respectively. However, using theoretical estimates
  for the spatial extent of both continuum and line emission from each
  component, we infer a separation of 3.62<SUP>+0.11</SUP><SUB>-0.30</SUB>
  mas and a position angle of 73<SUP>+9</SUP><SUB>-11</SUB>°, compatible
  with the expected one. Our analysis thus implies that the binary system
  lies at a distance of 368<SUP>+38</SUP><SUB>-13</SUB> pc, in agreement
  with recent spectrophotometric estimates, but significantly larger
  than the Hipparcos value of 258<SUP>+41</SUP><SUB>-31</SUB> pc. <P
  />Based on observations collected at the European Southern Observatory,
  Paranal, Chile, within the guaranteed time programme 074.A-9025(A).

---------------------------------------------------------
Title: Optical configuration and analysis of the AMBER/VLTI instrument
Authors: Robbe-Dubois, S.; Lagarde, S.; Petrov, R. G.; Lisi,
   F.; Beckmann, U.; Antonelli, P.; Bresson, Y.; Martinot-Lagarde,
   G.; Roussel, A.; Salinari, P.; Vannier, M.; Chelli, A.; Dugué, M.;
   Duvert, G.; Gennari, S.; Glück, L.; Kern, P.; Le Coarer, E.; Malbet,
   F.; Millour, F.; Perraut, K.; Puget, P.; Rantakyrö, F.; Tatulli, E.;
   Weigelt, G.; Zins, G.; Accardo, M.; Acke, B.; Agabi, K.; Altariba,
   E.; Arezki, B.; Aristidi, E.; Baffa, C.; Behrend, J.; Blöcker,
   T.; Bonhomme, S.; Busoni, S.; Cassaing, F.; Clausse, J. -M.; Colin,
   J.; Connot, C.; Delage, L.; Delboulbé, A.; Domiciano de Souza, A.;
   Driebe, T.; Feautrier, P.; Ferruzzi, D.; Forveille, T.; Fossat, E.;
   Foy, R.; Fraix-Burnet, D.; Gallardo, A.; Giani, E.; Gil, C.; Glentzlin,
   A.; Heiden, M.; Heininger, M.; Hernandez Utrera, O.; Hofmann, K. -H.;
   Kamm, D.; Kiekebusch, M.; Kraus, S.; Le Contel, D.; Le Contel, J. -M.;
   Lesourd, T.; Lopez, B.; Lopez, M.; Magnard, Y.; Marconi, A.; Mars,
   G.; Mathias, P.; Mège, P.; Monin, J. -L.; Mouillet, D.; Mourard,
   D.; Nussbaum, E.; Ohnaka, K.; Pacheco, J.; Perrier, C.; Rabbia, Y.;
   Rebattu, S.; Reynaud, F.; Richichi, A.; Robini, A.; Sacchettini,
   M.; Schertl, D.; Schöller, M.; Solscheid, W.; Spang, A.; Stee, P.;
   Stefanini, P.; Tallon, M.; Tallon-Bosc, I.; Tasso, D.; Testi, L.;
   Vakili, F.; von der Lühe, O.; Valtier, J. -C.; Ventura, N.
2007A&A...464...13R    Altcode: 2008arXiv0807.3717R
  Aims:This paper describes the design goals and engineering efforts
  that led to the realization of AMBER (Astronomical Multi BEam
  combineR) and to the achievement of its present performance. <BR
  />Methods: On the basis of the general instrumental concept, AMBER was
  decomposed into modules whose functions and detailed characteristics
  are given. Emphasis is put on the spatial filtering system, a key
  element of the instrument. We established a budget for transmission
  and contrast degradation through the different modules, and made the
  detailed optical design. The latter confirmed the overall performance
  of the instrument and defined the exact implementation of the AMBER
  optics. <BR />Results: The performance was assessed with laboratory
  measurements and commissionings at the VLTI, in terms of spectral
  coverage and resolution, instrumental contrast higher than 0.80,
  minimum magnitude of 11 in K, absolute visibility accuracy of 1%,
  and differential phase stability of 10<SUP>-3</SUP> rad over one minute.

---------------------------------------------------------
Title: VizieR Online Data Catalog: Temporal variations of the outer
    atmosphere and the dust shell of the carbon-rich Mira variable V
    Oph probed with VLTI/MIDI.
Authors: Ohnaka, K.; Driebe, T.; Weigelt, G.; Wittkowski, M.
2007yCat..34661099O    Altcode:
  N-band visibilities of the carbon-rich Mira variable V Oph observed
  with VLTI/MIDI on six nights between April and September 2005. For
  each data set, the visibilities at 101 wavelengths between 7.7 and
  13.2 micron are tabulated. <P />(1 data file).

---------------------------------------------------------
Title: Interferometry in the Near-Infrared: 1 Mas Resolution at the
    Wavelength of 1 Micron
Authors: Weigelt, G.; Balega, Y.; Beckert, T.; Driebe, T.; Hofmann,
   K. -H.; Ohnaka, K.; Preibisch, T.; Schertl, D.; Wittkowski, M.
2007ecf..book...63W    Altcode:
  High-resolution interferometric imaging at optical and infrared
  wavelengths provides unique information for the study of many different
  classes of astronomical objects. A large number of key objects
  have been resolved with unprecedented resolution using bispectrum
  speckle interferometry or infrared long-baseline interferometry. IR
  interferometry allows the study of, for example, disks and out-
  flows of YSOs (e.g., [1]), the wavelength and phase-dependent size of
  evolved stars (e.g., [2]), as well as the structure of AGN. The ESO Very
  Large Telescope Interferometer with its AMBER phase-closure instrument
  will enable us to achieve the spectacular resolution of 1 mas at the
  wavelength of 1 micron. The science goals of AMBER include studies of
  the jet structure of YSOs, the interferometric detection of extra-solar
  planets as well as the resolution of tori and broad-line regions of AGN.

---------------------------------------------------------
Title: Fizeau Interferometry with the LBT Astronomy on the Way to ELTs
Authors: Gaessler, W.; Herbst, T. M.; Ragazzoni, R.; Eckart, A.;
   Weigelt, G.; Linc-Nirvana Team
2007ecf..book...55G    Altcode:
  The Large Binocular Telescope (LBT) consists of two 8.4 m mirrors on
  one mechanical mounting, with a center to center separation of 14.4
  m. In the combined, focus the LBT provides the spatial resolution
  of a 23 m telescope and the sensitivity of a 12 m telescope. We are
  building an instrument called LINC-NIRVANA using the capability of LBT
  in Fizeau mode (imaging interferometry), leading to a unique combination
  of spatial resolution, sensitivity and field of view. The instrument
  will prove technology, such as Multi-Conjugated Adaptive Optics, which
  is needed for the next generation of Extremely Large Telescopes (ELT)
  (20 to 100 m diameter). The capabilities of LINC-NIRVANA will extend
  science, especially for extragalactic programs, building a bridge
  between current 10 m class telescopes and ELTs.

---------------------------------------------------------
Title: The Vicinity of the Galactic Supergiant B[e] Star CPD-57°2874
    from Near- and Mid-IR Long Baseline Spectro-Interferometry with the
    VLTI (AMBER and MIDI)
Authors: Domiciano de Souza, A.; Driebe, T.; Chesneau, O.; Hofmann,
   K. -H.; Kraus, S.; Miroshnichenko, A. S.; Ohnaka, K.; Petrov, R. G.;
   Preibisch, Th.; Stee, Ph.; Weigelt, G.
2006ASPC..355..155D    Altcode: 2005astro.ph.10736D
  We present the first spectro-interferometric observations of the
  circumstellar envelope (CSE) of a B[e] supergiant (CPD-57°2874}),
  performed with the Very Large Telescope Interferometer (VLTI) using
  the beam-combiner instruments AMBER (near-IR interferometry with
  three 8.3~m Unit Telescopes or UTs) and MIDI (mid-IR interferometry
  with two UTs). Our observations of the CSE are well fitted by an
  elliptical Gaussian model with FWHM diameters varying linearly
  with wavelength. Typical diameters measured are ≃1.8×3.4~mas
  or ≃4.5×8.5~AU (adopting a distance of 2.5~kpc) at 2.2 μm, and
  ≃12×15~mas or ≃30×38~AU at 12 μm. We show that a spherical dust
  model reproduces the SED but it underestimates the MIDI visibilities,
  suggesting that a dense equatorial disk is required to account for the
  compact dust-emitting region observed. Moreover, the derived major-axis
  position angle in the mid-IR (≃144°) agrees well with previous
  polarimetric data, hinting that the hot-dust emission originates in a
  disk-like structure. Our results support the non-spherical CSE paradigm
  for B[e] supergiants.

---------------------------------------------------------
Title: A compact dusty disk around the Herbig Ae star HR 5999 resolved
    with VLTI / MIDI
Authors: Preibisch, Th.; Kraus, S.; Driebe, Th.; van Boekel, R.;
   Weigelt, G.
2006A&A...458..235P    Altcode: 2006astro.ph..7497P
  Aims.We have used mid-infrared long-baseline interferometry to
  resolve the circumstellar material around the Herbig Ae star HR 5999,
  providing the first direct measurement of its angular size, and to
  derive constraints on the spatial distribution of the dust.<BR />
  Methods: .MIDI at the VLTI was used to obtain a set of ten spectrally
  dispersed (8-13 μm) interferometric measurements of HR 5999 at
  different projected baseline lengths and position angles. To derive
  constraints on the geometrical distribution of the dust, we compared
  our interferometric measurements to 2D, frequency-dependent radiation
  transfer simulations of circumstellar disks and envelopes. <BR />
  Results: .The derived visibility values between 0.5 and 0.9 show
  that the mid-infrared emission from HR 5999 is clearly resolved. The
  characteristic size of the emission region depends on the projected
  baseline length and position angle, and it ranges between 5-15
  milliarcsec (Gauss FWHM), corresponding to remarkably small physical
  sizes of 1-3 AU. For disk models with radial power-law density
  distributions, the relatively weak but very extended emission from
  outer disk regions (⪆ 3 AU) leads to model visibilities that are
  significantly lower than the observed visibilities, making these models
  inconsistent with the MIDI data. Disk models in which the density is
  truncated at outer radii of 2 - 3 AU, on the other hand, provide good
  agreement with the data. <BR /> Conclusions: .A satisfactory fit to
  the observed MIDI visibilities of HR 5999 is found with a model of a
  geometrically thin disk that is truncated at 2.6 AU and seen under an
  inclination angle of 58degr (i.e. closer to an edge-on view than to a
  face-on view). Neither models of a geometrically thin disk seen nearly
  edge-on, nor models of spherical dust shells can achieve agreement
  between the observed and predicted visibilities. The reason why the
  disk is so compact remains unclear; we speculate that it has been
  truncated by a close binary companion.

---------------------------------------------------------
Title: Outflows from the high-mass protostars <ASTROBJ>NGC
    7538</ASTROBJ> IRS1/2 observed with bispectrum speckle
    interferometry. Signatures of flow precession
Authors: Kraus, S.; Balega, Y.; Elitzur, M.; Hofmann, K. -H.;
   Preibisch, Th.; Rosen, A.; Schertl, D.; Weigelt, G.; Young, E. T.
2006A&A...455..521K    Altcode: 2006astro.ph..4328K
  Context.<ASTROBJ>NGC 7538 IRS1</ASTROBJ> is a high-mass
  (30 M<SUB>⊙</SUB>) protostar with a CO outflow, an associated
  ultracompact H II region, and a linear methanol maser structure, which
  might trace a Keplerian-rotating circumstellar disk. The directions
  of the various associated axes are misaligned with each other. <BR
  />Aims.We investigate the near-infrared morphology of the source to
  clarify the relations among the various axes. <BR />Methods.K'-band
  bispectrum speckle interferometry was performed at two 6-meter-class
  telescopes - the BTA 6 m telescope and the 6.5 m MMT. Complementary
  IRAC images from the Spitzer Space Telescope Archive were used to
  relate the structures detected with the outflow at larger scales. <BR
  />Results.High-dynamic range images show fan-shaped outflow structure
  in which we detect 18 stars and several blobs of diffuse emission. We
  interpret the misalignment of various outflow axes in the context of
  a disk precession model, including numerical hydrodynamic simulations
  of the molecular emission. The precession period is ~280 years and
  its half-opening angle is ~40°. A possible triggering mechanism is
  non-coplanar tidal interaction of an (undiscovered) close companion
  with the circumbinary protostellar disk. Our observations resolve
  the nearby massive protostar <ASTROBJ>NGC 7538 IRS2</ASTROBJ> as a
  close binary with separation of 195 mas. We find indications for shock
  interaction between the outflow activities in IRS1 and IRS2. Finally,
  we find prominent sites of star formation at the interface between
  two bubble-like structures in NGC 7538, suggestive of a triggered star
  formation scenario. <BR />Conclusions.Indications of outflow precession
  have been discovered to date in a number of massive protostars,
  all with large precession angles (~20-45°). This might explain the
  difference between the outflow widths in low- and high-mass stars and
  add support to a common collimation mechanism.

---------------------------------------------------------
Title: MATISSE: a four beams combiner in the mid-infrared for the VLTI
Authors: Lagarde, S.; Lopez, B.; Antonelli, P.; Beckman, U.; Behrend,
   J.; Bresson, Y.; Chesneau, O.; Dugué, M.; Glazenborg, A.; Graser,
   U.; Hofmann, K. H.; Jaffe, W.; Leinert, Ch.; Millour, F.; Menut,
   J. L.; Petrov, R. G.; Ratzka, T.; Weigelt, G.; Wolf, S.; Abraham, P.;
   Connot, C.; Henning, T.; Heininger, M.; Hugues, Y.; Kraus, S.; Laun,
   W.; Matter, A.; Neumann, U.; Nussbaum, E.; Niedzielski, A.; Mosoni,
   L.; Robbe-Dubois, S.; Roussel, A.; Schertl, D.; Vakili, F.; Wagner,
   K.; Waters, L. B. F. M.
2006SPIE.6268E..3ML    Altcode: 2006SPIE.6268E.115L
  A first generation of VLTI (Very Large Telescopes Interferometer) focal
  instruments, AMBER in the near-infrared and MIDI in the mid-infrared,
  has been already integrated and tested. New and important science
  results have been obtained. These instruments combine two (for MIDI)
  or three (for AMBER) beams coming from the eight telescopes installed
  at Cerro Paranal (four 8-meters and four 1.8-meters telescopes). In
  order to improve the capabilities of the interferometer and to
  engage a new scientific prospective, the second generation of VLTI
  instruments is currently under study. MATISSE belongs to this second
  generation. MATISSE objective is the image reconstruction. It will
  extend the astrophysical potential of the VLTI by overcoming the
  ambiguities existing in the interpretation of simple visibility
  measurements. It is a spectro-interferometer combining up to four
  beams with a large spectral coverage ranging from 3 to 25 μm (L,
  M, N and Q bands). Different spectral resolutions (between 30 and
  1500) are foreseen. MATISSE will measure closure phase relations thus
  offering an efficient capability for image reconstruction. The concept
  of MATISSE is presented in this paper. The recombination mode of MATISSE
  is similar to the AMBER beam combination, but has been adapted to the
  constraints specific to the mid-infrared domain.

---------------------------------------------------------
Title: Aperture synthesis imaging with the LBT: reconstruction of
    diffraction-limited images from LBT LINC-NIRVANA data using the
    Richardson-Lucy and regularized building block method
Authors: Hofmann, Karl-Heinz; Driebe, Thomas; Heininger, Mathias;
   Schertl, Dieter; Weigelt, Gerd
2006SPIE.6268E..3HH    Altcode: 2006SPIE.6268E.111H
  The regularized and space-variant Building Block method allow the
  reconstruction of diffraction-limited aperture-synthesis images from
  Large Binocular Telescope (LBT) LINC-NIRVANA data. Images with the
  diffraction-limited resolution of a 22.8 m single-dish telescope
  can be reconstructed if raw images are taken at several different
  hour angles. Computer-generated and laboratory LBT interferograms
  were simulated that are similar to the data which can be obtained
  with the LINC-NIRVANA beam combiner instrument. From the simulated
  interferograms, diffraction-limited images were reconstructed with
  the regularized Building Block method, which is an extension of the
  Building Block method. We compare the Building Block reconstructions
  to images obtained with the Richardson-Lucy (RL) method and the Ordered
  Subsets Expectation Maximization (OSEM) method. Our image reconstruction
  studies were performed with computer-simulated J-band and laboratory
  H-band raw data of a galaxy with simulated total magnitudes of J = 16
  to 18 and H = 16 to 19, respectively. One of the faintest structures
  in the images has a brightness of J~25. The simulated reference stars
  within the isoplanatic patch have magnitudes of J = 20 - 21 and H =
  19. All three methods are able to reconstruct diffraction-limited
  images of similar quality.

---------------------------------------------------------
Title: Aperture synthesis image reconstruction study for the
    mid-infrared VLTI imager MATISSE
Authors: Hofmann, Karl-Heinz; Kraus, Stefan; Lopez, Bruno; Weigelt,
   Gerd; Wolf, Sebastian
2006SPIE.6268E..3IH    Altcode: 2006SPIE.6268E.112H
  Aperture synthesis imaging provides a way to overcome the ambiguities
  which often exist in the interpretation of single-baseline
  interferometric visibility measurements. The mid-infrared imager
  MATISSE (Multi AperTure mid-Infrared SpectroScopic Experiment), which
  was proposed to ESO as a second-generation VLTI instrument, is designed
  to combine up to four 8.2 m VLTI UTs or 1.8 m ATs while simultaneously
  providing a high spectroscopic resolution. To demonstrate that MATISSE
  will allow high-quality interferometric imaging within realistic
  observation time constraints, we performed an image reconstruction
  study, for which we simulated the uv-coverage achievable in 3, 5,
  or 7 nights with 3 or 4 telescopes. As input image for our studies,
  a protostellar disk image was simulated with the radiative transfer
  code MC3D<SUP>1</SUP> . From the simulated visibilities and closure
  phases, we derived aperture synthesis images using the Building Block
  algorithm<SUP>2</SUP> . The main features of the disk image could
  be reconstructed in the presence of noise and assuming the sparse
  uv-coverage achievable within just 3 nights of observations.

---------------------------------------------------------
Title: 2006 interferometry imaging beauty contest
Authors: Lawson, Peter R.; Cotton, William D.; Hummel, Christian A.;
   Baron, Fabien; Young, John S.; Kraus, Stefan; Hofmann, Karl-Heinz;
   Weigelt, Gerd P.; Ireland, Michael; Monnier, John D.; Thiébaut,
   Eric; Rengaswamy, Sridharan; Chesneau, Olivier
2006SPIE.6268E..1UL    Altcode: 2006SPIE.6268E..59L
  We present a formal comparison of the performance of algorithms
  used for synthesis imaging with optical/infrared long-baseline
  interferometers. Five different algorithms are evaluated based on
  their performance with simulated test data. Each set of test data
  is formatted in the OI-FITS format. The data are calibrated power
  spectra and bispectra measured with an array intended to be typical
  of existing imaging interferometers. The strengths and limitations of
  each algorithm are discussed.

---------------------------------------------------------
Title: The imaging fringe and flexure tracker of LINC-NIRVANA:
    basic opto-mechanical design and principle of operation
Authors: Straubmeier, Christian; Bertram, Thomas; Eckart, Andreas;
   Rost, Steffen; Wang, Yeping; Herbst, Tom; Ragazzoni, Roberto;
   Weigelt, Gerd
2006SPIE.6268E..1IS    Altcode: 2006SPIE.6268E..48S
  LINC-NIRVANA is the interferometric near-infrared imaging camera for the
  Large Binocular Telescope (LBT). Being able to observe at wavelength
  bands from J to K (suppported by an adaptive optics system operating
  at visible light) LINC-NIRVANA will provide an unique and unprecedented
  combination of high angular resolution (~ 9 milliarcseconds at 1.25μm),
  wide field of view (~ 100 arcseconds<SUP>2</SUP> at 1.25μm), and large
  collecting area (~ 100m<SUP>2</SUP>). One of the major contributions
  of the 1. Physikalische Institut of the University of Cologne to
  this project is the development and provision of the Fringe and
  Flexure Tracking System (FFTS). In addition to the single-eye adaptive
  optics systems the FFTS is a crucial component to ensure a time-stable
  wavefront correction over the full aperture of the double-eye telescope,
  a mandatory pre-requisite for interferometric observations. Using a
  independent HAWAII 1 detector array at a combined focus close to the
  science detector, the Fringe and Flexure Tracking System analyses the
  complex two-dimensional interferometric point spread function (PSF)
  of a suitably bright reference source at frame rates of up to several
  hundred Hertz. By fitting a parameterised theoretical model PSF to the
  preprocessed image-data the FFTS determines the amount of pistonic
  phase difference and angular misalignment between the wavefronts
  of the two optical paths of LINC-NIRVANA. For every exposure the
  corrective parameters are derived in real-time and transmitted to a
  dedicated piezo-electric fast linear mirror for simple path lengths
  adjustments, and/or to the adaptive optics systems of the single-eye
  telescopes for more complicated corrections. In this paper we present
  the basic concept and currect status of the opto-mechanical design of
  the Fringe and Flexure Tracker, the operating principle of the fringe
  and flexure tracking loops, and the encouraging result of a laboratory
  test of the piston control loop.

---------------------------------------------------------
Title: Radiative transfer modeling of three-dimensional clumpy AGN
    tori and its application to NGC 1068
Authors: Hönig, S. F.; Beckert, T.; Ohnaka, K.; Weigelt, G.
2006A&A...452..459H    Altcode: 2006astro.ph..2494H
  Recent observations of NGC 1068 and other AGN support the idea of a
  geometrically and optically thick dust torus surrounding the central
  supermassive black hole and accretion disk of AGN. In type 2 AGN,
  the torus is seen roughly edge-on, leading to obscuration of the
  central radiation source and a silicate absorption feature near 10 {μ
  m}. While most of the current torus models distribute the dust smoothly,
  there is growing evidence that the dust must be arranged in clouds. We
  describe a new method for modeling near- and mid-infrared emission of
  3-dimensional clumpy tori using Monte Carlo simulations. We calculate
  the radiation fields of individual clouds at various distances from the
  AGN and distribute these clouds within the torus region. The properties
  of the individual clouds and their distribution within the torus are
  determined from a theoretical approach of self-gravitating clouds close
  to the shear limit in a gravitational potential. We demonstrate that
  clumpiness in AGN tori can overcome the problem of over-pronounced
  silicate features. Finally, we present model calculations for the
  prototypical Seyfert 2 galaxy NGC 1068 and compare them to recent
  high-resolution measurements. Our model is able to reproduce both
  the SED and the interferometric observations of NGC 1068 in the near-
  and mid-infrared.

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Title: MATISSE: perspective of imaging in the mid-infrared at the VLTI
Authors: Lopez, B.; Wolf, S.; Lagarde, S.; Abraham, P.; Antonelli,
   P.; Augereau, J. C.; Beckman, U.; Behrend, J.; Berruyer, N.;
   Bresson, Y.; Chesneau, O.; Clausse, J. M.; Connot, C.; Demyk, K.;
   Danchi, W. C.; Dugué, M.; Flament, S.; Glazenborg, A.; Graser, U.;
   Henning, T.; Hofmann, K. H.; Heininger, M.; Hugues, Y.; Jaffe, W.;
   Jankov, S.; Kraus, S.; Laun, W.; Leinert, Ch.; Linz, H.; Mathias,
   Ph.; Meisenheimer, K.; Matter, A.; Menut, J. L.; Millour, F.;
   Neumann, U.; Nussbaum, E.; Niedzielski, A.; Mosonic, L.; Petrov, R.;
   Ratzka, T.; Robbe-Dubois, S.; Roussel, A.; Schertl, D.; Schmider,
   F. -X.; Stecklum, B.; Thiebaut, E.; Vakili, F.; Wagner, K.; Waters,
   L. B. F. M.; Weigelt, G.
2006SPIE.6268E..0ZL    Altcode: 2006SPIE.6268E..31L
  Our objective is the development of mid-infrared imaging at the
  VLTI. The related science case study demonstrates the enormous
  capability of a new generation mid-infrared beam combiner. MATISSE will
  constitute an evolution of the two-beam interferometric instrument
  MIDI by increasing the number of recombined beams up to four. MIDI
  is a very successful instrument which offers a perfect combination
  of spectral and angular resolution. New characteristics present in
  MATISSE will give access to the mapping and the distribution of the
  material (typically dust) in the circumstellar environments by using
  a wide mid-infrared band coverage extended to L, M, N and Q spectral
  bands. The four beam combination of MATISSE provides an efficient
  UV-coverage: 6 visibility points are measured in one set and 4 closure
  phase relations which can provide for the first time aperture synthesis
  images in the mid-infrared spectral regime. The mid-infrared spectral
  domain is very relevant for the study of the environment of various
  astrophysical sources. Our science case studies show the wide field of
  applications of MATISSE. They will be illustrated in the first part of
  this presentation through the perspective of imaging the circumstellar
  environments/discs of young stellar objects. The MATISSE characteristics
  will be given in a second part of the presentation.

---------------------------------------------------------
Title: VSI: a milli-arcsec spectro-imager for the VLTI
Authors: Malbet, F.; Kern, P. Y.; Berger, J. -P.; Jocou, L.; Garcia,
   P.; Buscher, D.; Rousselet-Perraut, K.; Weigelt, G.; Gai, M.; Surdej,
   J.; Hron, J.; Neuhäuser, R.; Le Coarer, E.; Labeye, P. R.; Le Bouquin,
   J.; Benisty, M.; Herwats, E.
2006SPIE.6268E..0YM    Altcode: 2006astro.ph..7291M
  VLTi Spectro-Imager (VSI) is a proposition for a second generation
  VLTI instrument which is aimed at providing the ESO community with the
  capability of performing image synthesis at milli-arcsecond angular
  resolution. VSI provides the VLTI with an instrument able to combine
  4 telescopes in a baseline version and optionally up to 6 telescopes
  in the near-infrared spectral domain with moderate to high spectral
  resolution. The instrument contains its own fringe tracker in order
  to relax the constraints onto the VLTI infrastructure. VSI will do
  imaging at the milli-arcsecond scale with spectral resolution of: a)
  the close environments of young stars probing the initial conditions
  for planet formation; b) the surfaces of stars; c) the environment of
  evolved stars, stellar remnants and stellar winds, and d) the central
  region of active galactic nuclei and supermassive black holes. The
  science cases allowed us to specify the astrophysical requirements
  of the instrument and to define the necessary studies of the science
  group for phase A.

---------------------------------------------------------
Title: First astrophysical results from AMBER/VLTI
Authors: Malbet, F.; Petrov, R. G.; Weigelt, G.; Stee, P.; Tatulli,
   E.; Domiciano de Souza, A.; Millour, F.
2006SPIE.6268E..02M    Altcode: 2006astro.ph..6484M; 2006SPIE.6268E...2M
  The AMBER instrument installed at the Very Large Telescope
  (VLT) combines three beams from as many telescopes to produce
  spectrally dispersed fringes from milli-arcsecond angular scale in
  the near infrared. Two years after installation, first scientific
  observations have been carried out during the Science Demonstration
  Time and the Guaranteed Time mostly on bright sources due to some VLTI
  limitations. In this paper, we review these first astrophysical results
  and we show which types of completely new information is brought by
  AMBER. The first astrophysical results have been mainly focusing
  on stellar wind structure, kinematics, and its interaction with
  dust usually concentrated in a disk. Because AMBER has dramatically
  increased the number of measures per baseline, this instrument brings
  strong constraints on morphology and models despite a relatively poor
  (u,v) coverage for each object.

---------------------------------------------------------
Title: VLTI/MIDI observation of the silicate carbon star Hen 38
(IRAS08002-3803): silicate dust reservoir spatially resolved for
    the first time
Authors: Ohnaka, Keiichi; Driebe, Thomas; Hofmann, Karl-Heinz;
   Preibisch, Thomas; Schertl, Dieter; Weigelt, Gerd
2006SPIE.6268E..2VO    Altcode: 2006SPIE.6268E..91O
  We present the results of N-band spectro-interferometric observations
  of the silicate carbon star Hen 38 (IRAS08002-3803) with the
  MID-infrared Interferometric instrument (MIDI) at the Very Large
  Telescope Interferometer (VLTI) of the European Southern Observatory
  (ESO). Our observations of IRAS08002-3803 with baseline lengths of
  39-47 m have spatially resolved the dusty environment of a silicate
  carbon star for the first time and revealed an unexpected wavelength
  dependence of the angular size in the N band: the uniform-disk diameter
  is found to be constant and ~36 mas (72 R <SUB>*</SUB>) between 8 and
  10 μm, while it steeply increases longward of 10 μm to reach ~53
  mas (106 R <SUB>*</SUB>) at 13 μm. Neither spherical shell models
  nor axisymmetric disk models consisting of silicate grains alone can
  simultaneously explain the observed wavelength dependence of the
  visibility and the spectral energy distribution (SED). We propose
  that the circumstellar environment of IRAS08002-3803 may consist of
  two grain species coexisting in the disk: silicate and a second grain
  species, for which we consider amorphous carbon, large silicate grains,
  and metallic iron grains. Comparison of the observed visibilities
  and SED with our models shows that such disk models can fairly -
  though not entirely satisfactorily - reproduce the observed SED and
  N-band visibilities. Our MIDI observations and the radiative transfer
  calculations lend support to the picture where oxygen-rich material
  around IRAS08002-3803 is stored in a circumbinary disk surrounding
  the carbon-rich primary star and its putative low-luminosity companion.

---------------------------------------------------------
Title: VEGA: a visible spectrograph and polarimeter for CHARA -
    science cases description
Authors: Stee, Philippe; Mourard, Denis; Bonneau, Daniel;
   Berlioz-Arthaud, Paul; Domiciano de Souza, Armando; Foy, Renaud;
   Harmanec, Petr; Jankov, Slobodan; Kervella, Pierre; Koubsky,
   Pavel; Lagarde, Stéphane; Le Bouquin, Jean-Baptiste; Mathias,
   Philippe; Mérand, Antoine; Nardetto, Nicolas; Petrov, Romain G.;
   Rousselet-Perraut, Karine; Stehle, Chantal; Weigelt, Gerd
2006SPIE.6268E..3RS    Altcode: 2006SPIE.6268E.119S
  Interferometry has been intensively done at long wavelengths, starting
  with the radio interferometers in the years 50 since it was easier to
  guide radio wavelengths in cable while keeping the phase information or
  using a local oscillator and a correlator to recombine "a posteriori"
  the beams over intercontinental distances. In the optical a lot of work
  as been done at IR and near-IR wavelengths since it was technically
  easier, or we must say, less difficult to recombine directly the
  optical beams since the coherence length is larger and the turbulence
  slower than at shorter wavelengths. Therefore, the visible domain of
  the electromagnetic spectrum is not covered at the same level than
  near or mid infrared. Some very nice and important results have been
  however obtained with the GI2T interferometer in south of France,
  the Mark III interferometer on the Mount Wilson, USA, the NPOI array
  in Flagstaff, USA or the SUSI interferometer in Australia. We will
  present in this paper the science cases of a new but already existing
  and tested instrument: the REGAIN focal instrument which was designed
  and built for the GI2T. This instrument, in his CHARA adaptation, called
  VEGA will open new fields in a wide range of Astrophysical topics
  only addressable in the visible domain. It will provide a spectral
  resolution up to 30000 within the spectral range 0.4-0.9 micron and
  a spatial resolution of less than 1mas for up to 4 telescopes in its
  X-lambda special configuration. A polarimetric device (SPIN) measuring
  simultaneously the polarization in 2 directions either circular or
  linear is also implemented in this instrument. Since VEGA was already
  tested on the sky on 1.5 m telescopes it is also very well suited
  for the 1m CHARA array and will only need minor adaptations for the
  injection of the CHARA beams. This paper will focus on some of the most
  promising science drivers only possible with this visible instrument.

---------------------------------------------------------
Title: VLTI-AMBER observations of Eta Carinae with high spatial
    resolution and spectral resolutions of 1,500 and 10,000
Authors: Weigelt, Gerd; Petrov, Romain G.; Chesneau, Olivier;
   Davidson, Kris; Domiciano de Souza, Armando; Driebe, Thomas; Foy,
   Renaud; Fraix-Burnet, Didier; Gull, Ted; Hillier, John D.; Hofmann,
   Karl-Heinz; Kraus, Stefan; Malbet, Fabien; Marconi, Alessandro;
   Mathias, Philippe; Monin, Jean-Louis; Millour, Florentin; Ohnaka,
   Keiichi; Rantakyrö, Frederik; Richichi, Andrea; Schertl, Dieter;
   Schöller, Markus; Stee, Philippe; Testi, Leonardo; Wittkowski, Markus
2006SPIE.6268E..2SW    Altcode: 2006SPIE.6268E..88W
  We present the first interferometric NIR observations of the LBV η
  Carinae with high spectral resolution. The observations were carried out
  with three 8.2 m VLTI Unit Telescopes in the K-band. The raw data are
  spectrally dispersed interferograms obtained with spectral resolutions
  of 1,500 (MR-K mode) and 12,000 (HR-K mode). The observations were
  performed in the wavelength range around both the He I 2.059 μm and
  the Brγ 2.166 μm emission lines. The spectrally dispersed AMBER
  interferograms allow the investigation of the wavelength dependence of
  the visibility, differential phase, and closure phase of η Car. In
  the K-band continuum, a diameter of 4.0+/-0.2 mas (Gaussian FWHM)
  was measured for η Car's optically thick wind region, whereas the
  Brγ and He I emission line regions are larger. If we fit Hillier et
  al. model visibilities to the observed AMBER visibilities, we obtain
  50% encircled-energy diameters of 4.3, 6.5 and 9.6 mas in the 2.17 μm
  continuum, the He I, and the Brγemission lines, respectively. In the
  continuum near the Brγ line, an elongation along a position angle
  of 128° +/- 15° was found, consistent with previous VLTI/VINCI
  measurements. We find good agreement between the measured visibilities
  and the predictions of the radiative transfer model of Hillier et
  al. For the interpretation of the non-zero differential and closure
  phases measured within the Brγ line, we present a simple geometric
  model of an inclined, latitude-dependent wind zone. Our observations
  support theoretical models of anisotropic winds from fast-rotating,
  luminous hot stars with enhanced high-velocity mass loss near the
  polar regions.

---------------------------------------------------------
Title: Moving shadows on the dusty disks of young stars
Authors: Tambovtseva, L. V.; Grinin, V. P.; Weigelt, G.
2006A&A...448..633T    Altcode:
  We investigate the formation of moving shadows on the circumbinary (CB)
  disk of young binary systems. Moving shadows can be created by a dusty
  disk wind of the secondary component. The densest parts of the dusty
  disk wind and the associated common envelope can be optically thick and
  may block the stellar radiation inside a certain solid angle, resulting
  in the appearance of a moving shadow zone. Its shape and size depends
  on the mass loss rate, the disk wind velocity, and optical properties
  of the dust. Our calculations show that the shadow zone is observable
  if the mass loss rate dot M<SUB>w</SUB> is greater than 10<SUP>-9</SUP>
  M<SUB>⊙</SUB> per year. This shadow resembles a clock hand. If the
  orbit is an elliptical, the properties of this clock hand will change
  during the orbital motion of the secondary.

---------------------------------------------------------
Title: Near-infrared speckle interferometry and radiative transfer
    modelling of the carbon star LP Andromedae
Authors: Men'shchikov, A. B.; Balega, Y. Y.; Berger, M.; Driebe,
   T.; Hofmann, K. -H.; Maximov, A. F.; Schertl, D.; Shenavrin, V. I.;
   Weigelt, G.
2006A&A...448..271M    Altcode:
  We present the near-infrared speckle interferometry for <ASTROBJ>LP
  And</ASTROBJ> in the H and K' bands with diffraction-limited resolutions
  of 56 and 72 mas, new JHKLM photometry, and the results of our
  radiative transfer modelling of this carbon star. The reconstructed
  visibility reveals a spherically-symmetric envelope surrounding the
  central star. To determine the physical parameters of the latter and
  the properties of its dusty envelope, we performed extensive radiative
  transfer calculations. The well-defined spectral energy distribution
  of <ASTROBJ>LP And</ASTROBJ> in the entire range from the near-IR to
  millimeter wavelengths (including the absorption feature visible in the
  stellar continuum at 3 μm and the shapes of the dust emission bands at
  11 and 27 μm), together with our H-band visibility can be reproduced
  by a spherical dust envelope with parameters that are very similar to
  those of <ASTROBJ>CW Leo</ASTROBJ> (<ASTROBJ>IRC +10 216</ASTROBJ>), the
  best studied carbon star. For the newly estimated pulsation period P =
  617 ± 6 days and distance D = 740 ± 100 pc, our model of <ASTROBJ>LP
  And</ASTROBJ> changes its luminosity L<SUB>star</SUB> between 16 200 and
  2900 L<SUB>⊙</SUB>, its effective temperature T<SUB>star</SUB> between
  3550 and 2100 K, and its radius R<SUB>star</SUB> between 340 and 410
  R<SUB>⊙</SUB>. The model estimates the star's mass-loss rate dot{M}
  ≈ 1.9 × 10<SUP>-5</SUP> M<SUB>⊙</SUB> yr<SUP>- 1</SUP>, assuming a
  constant outflow velocity v = 14 km s<SUP>-1</SUP>. If the latter also
  applied to the innermost parts of the dusty envelope, then presently the
  star would be losing mass at a rate dot{M} ≈ 6.0 × 10<SUP>-5</SUP>
  M<SUB>⊙</SUB> yr<SUP>-1</SUP>. However, we believe that the inner
  wind velocity must actually be closer to v ≈ 4 km s<SUP>-1</SUP>
  instead, as wind acceleration is expected in the dust-formation
  zone. The dusty envelope of <ASTROBJ>LP And</ASTROBJ> extends from
  R<SUB>1</SUB> ≈ 2 R<SUB>star</SUB> to distances of R<SUB>2</SUB>
  ≈ 3 pc from the star. The total mass of the envelope lost by the
  central star is M = 3.2 M<SUB>⊙</SUB> assuming a dust-to-gas mass
  ratio of ρ_d/ρ = 0.0039. The circumstellar optical depth towards
  the star is τ<SUB>V</SUB> = 25 in the visual. The dust model contains
  small silicon carbide grains, inhomogeneous grains made of a mixture
  of SiC and incompletely amorphous carbon, and thin mantles made of
  iron-magnesium sulfides. This dust mixture perfectly fits the infrared
  continuum and both the 11.3 μm and 27 μm emission bands. We find that
  our K'-band visibility could not be fitted by our spherical model, so we
  discuss possible reasons for this interesting result. More observations
  are required in order to determine what causes this effect. If slight
  deviations from spherical geometry in its envelope are the reason, then
  the object's evolutionary stage would be even more similar to that of
  <ASTROBJ>CW Leo</ASTROBJ>. It appears that <ASTROBJ>LP And</ASTROBJ> is
  a highly-evolved intermediate-mass star (initial mass M^0<SUB>star</SUB>
  ≈ 4 M<SUB>⊙</SUB>) at the end of its AGB phase.

---------------------------------------------------------
Title: Orbits of new Hipparcos binaries. II
Authors: Balega, I. I.; Balega, Y. Y.; Hofmann, K. -H.; Malogolovets,
   E. V.; Schertl, D.; Shkhagosheva, Z. U.; Weigelt, G.
2006A&A...448..703B    Altcode:
  We continue the presentation of new orbits for Hipparcos binaries
  determined from regular speckle interferometric observations. Most of
  the data were collected in the period between 1998.77 and 2004.82 using
  the 6 m BTA telescope <P />of the Special Astrophysical Observatory
  in Zelenchuk. New orbits are presented for six pairs: HIP 4809,
  HIP 4849, HIP 5531, HIP 19206, HIP 105947, and HIP 114922. One
  of the pairs, HIP 114922, has M dwarf components orbiting with a
  period of 19.72 yr. Two binaries, HIP 4809 and HIP 5531, have
  luminosity class IV components. The periods of the orbits range from
  7.30 yr to 28.99 yr. All of the orbits can be considered definitive;
  however, the total mass error for the systems remains high, mainly
  due to Hipparcos parallax error.

---------------------------------------------------------
Title: Photopolarimetric activity and circumstellar environment of
    the young binary system DF Tau
Authors: Shakhovskoj, D.; Grinin, V.; Rostopchina, A.; Schertl, D.;
   Hofmann, K. -H.; Weigelt, G.; Balega, Yu.; Kiyaeva, O.; Melnikov, S.
2006A&A...448.1075S    Altcode:
  We present the results of multi-year photometric and polarimetric
  observations of the young binary system DF Tau in the UBVRI bands, as
  well as bispectrum speckle interferometric observations in the H and K
  bands obtained between 2001 and 2003. The photometric and polarimetric
  observations suggest that the linear polarization of DF Tau does
  not depend on its brightness, and the polarization variation has a
  stochastic character. This result confirms earlier suggestions about
  the dominant role of hot accretion spots in the photometric activity
  of this star. We argue that the hot spots are at high latitudes and/or
  the star rotation axis is inclined to the line-of-sight. The influence
  of circumstellar (CS) dust on the variability is probably small since
  the inclination of the primary's CS disk to the line-of-sight is
  large. Using the total mass of the binary system DF Tau from Hartigan
  &amp; Kenyon (2003, ApJ, 583, 334), we calculated new orbital parameters
  of the system. The new value of the orbital period (P = 74.1 yr)
  disagrees with the photometric cycle of about 40 yr revealed by Lamzin
  et al. (2001b, A&amp;A, 372, 922) from analysis of the historical light
  curve of this star. This suggests that this cycle is not caused by the
  orbital motions of the binary components, but probably reflects the
  cyclical variability of the global magnetic field on the main component.

---------------------------------------------------------
Title: Bispectrum speckle interferometry of the massive protostellar
    outflow source IRAS 23151+5912
Authors: Weigelt, G.; Beuther, H.; Hofmann, K. -H.; Meyer, M. R.;
   Preibisch, Th.; Schertl, D.; Smith, M. D.; Young, E. T.
2006A&A...447..655W    Altcode: 2005astro.ph.11178W
  We present bispectrum speckle interferometry of the massive protostellar
  object IRAS 23151+5912 in the near-infrared K' band. The reconstructed
  image shows the diffuse nebulosity north-east of two point-like sources
  in unprecedented detail. The comparison of our near-infrared image
  with mm continuum and CO molecular line maps shows that the brighter of
  the two point sources lies near the center of the mm peak, indicating
  that it is a high-mass protostar. The nebulosity coincides with the
  blue-shifted molecular outflow component. The most prominent feature
  in the nebulosity is a bow-shock-like arc. We assume that this feature
  is associated with a precessing jet which has created an inward-pointed
  cone in the swept-up material. We present numerical jet simulations that
  reproduce this and several other features observed in our speckle image
  of the nebulosity. Our data also reveal a linear structure connecting
  the central point source to the extended diffuse nebulosity. This
  feature may represent the innermost part of a jet that drives the
  strong molecular outflow (PA ∼ 80°) from IRAS 23151+5912. With
  the aid of radiative transfer calculations, we demonstrate that, in
  general, the observed inner structures of the circumstellar material
  surrounding high-mass stars are strongly influenced by the orientation
  and symmetry of the bipolar cavity.

---------------------------------------------------------
Title: High angular resolution N-band observation of the silicate
    carbon star IRAS08002-3803 with the VLTI/MIDI instrument . Dusty
    environment spatially resolved
Authors: Ohnaka, K.; Driebe, T.; Hofmann, K. -H.; Leinert, Ch.; Morel,
   S.; Paresce, F.; Preibisch, Th.; Richichi, A.; Schertl, D.; Schöller,
   M.; Waters, L. B. F. M.; Weigelt, G.; Wittkowski, M.
2006A&A...445.1015O    Altcode: 2005astro.ph..9746O
  We present the results of N-band spectro-interferometric
  observations of the silicate carbon star IRAS08002-3803 with the
  MID-infrared Interferometric instrument (MIDI) at the Very Large
  Telescope Interferometer (VLTI) of the European Southern Observatory
  (ESO). The observations were carried out using two unit telescopes
  (UT2 and UT3) with projected baseline lengths ranging from 39 to 47
  m. Our observations of IRAS08002-3803 have spatially resolved the
  dusty environment of a silicate carbon star for the first time and
  revealed an unexpected wavelength dependence of the angular size in
  the N band: the uniform-disk diameter is found to be constant and
  36 mas (72 R<SUB>star</SUB>) between 8 and 10 μm, while it steeply
  increases longward of 10 μm to reach 53 mas (106 R<SUB>star</SUB>) at
  13 μm. Model calculations with our Monte Carlo radiative transfer code
  show that neither spherical shell models nor axisymmetric disk models
  consisting of silicate grains alone can simultaneously explain the
  observed wavelength dependence of the visibility and the spectral energy
  distribution (SED). We propose that the circumstellar environment of
  IRAS08002-3803 may consist of two grain species coexisting in the disk:
  silicate and a second grain species, for which we consider amorphous
  carbon, large silicate grains, and metallic iron grains. Comparison of
  the observed visibilities and SED with our models shows that such disk
  models can fairly - though not entirely satisfactorily - reproduce
  the observed SED and N-band visibilities. Our MIDI observations and
  the radiative transfer calculations lend support to the picture
  where oxygen-rich material around IRAS08002-3803 is stored in a
  circumbinary disk surrounding the carbon-rich primary star and its
  putative low-luminosity companion.

---------------------------------------------------------
Title: NIR high-resolution imaging and radiative transfer modeling
    of the Frosty Leo nebula
Authors: Murakawa, K.; Ohnaka, K.; Driebe, T.; Hofmann, K. -H.;
   Schertl, D.; Oya, S.; Weigelt, G.
2006IAUS..234..473M    Altcode:
  We present a K'-band speckle image and HK-band polarimetric images
  of the proto-planetary nebula Frosty Leo obtained using the 6 m SAO
  telescope and the 8 m Subaru telescope, respectively. Our speckle image
  revealed clumpy structures in the hourglass-like bipolar nebula. The
  polarimetric data, for the first time, detected an elongated region
  with small polarizations and polarization vector alignment on the
  east side of the central star. We have performed radiative transfer
  calculations to model the dust shell of Frosty Leo. We found that
  micron-size grains in the equatorial dense region and small grains in
  the bipolar lobes are required to explain the total intensity images,
  the polarization images, and the spectral energy distribution.

---------------------------------------------------------
Title: Molecular jet simulation with a large precession angle and
    its application to emission from NGC 7538 IRS1
Authors: Rosen, A.; Kraus, S.; Weigelt, G.; Smith, M. D.
2005AAS...207.7416R    Altcode: 2005BAAS...37.1286R
  Recent high resolution bispectrum speckle interferometric observations
  in the near-infrared have revealed that the area surrounding NGC 7538
  IRS1 is associated with a fan-like region that contains several stars
  and regions of diffuse emission. An interpretation of the speckle,
  CO, and methanol maser data, which shows the current position angle
  of the protostar's accretion disk on the sky, is of a jet with a
  large precession angle. Here, we run a molecular jet simulation with
  a similarly wide precession angle. We analyze the simulation for
  properties associated with the flow and the calculated emission. We
  can reproduce the “older" average position angle for the CO emission,
  compared with a more recent value from molecular hydrogen (i.e., shocked
  gas) emission (which we use as a proxy for the K' band emission). Thus,
  the model is consistent with the interpretation that a precessing jet
  is responsible for much of the molecular emission (covering different
  emission lines) in the IRS1 region.

---------------------------------------------------------
Title: Reconstruction of aperture-synthesis images from LBT
    LINC-NIRVANA data using the Richardson-Lucy and space-variant Building
    Block method
Authors: Hofmann, K. -H.; Driebe, T.; Heininger, M.; Schertl, D.;
   Weigelt, G.
2005A&A...444..983H    Altcode:
  We present a new method, the regularized and space-variant Building
  Block method, which is able to reconstruct diffraction-limited
  aperture-synthesis images from Large Binocular Telescope (LBT)
  LINC-NIRVANA data. Images with the diffraction-limited resolution of
  a 22.8 m single-dish telescope can be derived if raw images are taken
  at several different hour angles. We simulated computer-generated
  and laboratory LBT interferograms that are similar to the data which
  can be obtained with the LINC-NIRVANA beam combiner instrument. From
  the simulated data, diffraction-limited images were reconstructed
  with the regularized Building Block method, which is an extension
  of the Building Block method (Hofmann &amp; Weigelt 1993, A&amp;A,
  278, 328). We compare the Building Block reconstructions to images
  obtained with the Richardson-Lucy (RL) method (Richardson 1972,
  J. Opt. Soc. Am., 62, 55; Lucy 1974, AJ, 79, 745) and the Ordered
  Subsets Expectation Maximization (OSEM) method (Hudson &amp; Larkin
  1994, IEEE Trans. Med. Imag., 13, 601; Bertero &amp; Boccacci 2000,
  A&amp;AS, 144, 181). Our image reconstruction studies were performed
  with computer-simulated J-band and laboratory H-band raw data of
  a galaxy with simulated total magnitudes of J = 16<SUP>m</SUP> to
  18<SUP>m</SUP> and H = 16<SUP>m</SUP> to 19^m, respectively. One
  of the faintest structures in the images has a brightness of J ∼
  25^m. The simulated reference stars within the isoplanatic patch have
  magnitudes of J = 20^m{-}21<SUP>m</SUP> and H = 19^m. All three methods
  are able to reconstruct diffraction-limited images with almost the same
  quality. Furthermore, raw data with space-variant point spread functions
  were simulated, and diffraction-limited images were reconstructed
  using the space-variant version of the Building Block method.

---------------------------------------------------------
Title: LINC-NIRVANA: MCAO toward Extremely Large Telescopes
Authors: Gaessler, W.; Arcidiacono, C.; Egner, S.; Herbst, T. M.;
   Andersen, D.; Baumeister, H.; Bizenberger, P.; Boehnhardt, H.; Briegel,
   F.; Kuerster, M.; Laun, W.; Mohr, L.; Grimm, B.; Rix, H. -W.; Rohloff,
   R. -R.; Soci, R.; Storz, C.; Xu, W.; Ragazzoni, R.; Salinari, P.;
   Diolaiti, E.; Farinato, J.; Carbillet, M.; Schreiber, L.; Eckart,
   A.; Bertram, T.; Straubmeier, C.; Wang, Y.; Zealouk, L.; Weigelt,
   G.; Beckmann, U.; Behrend, J.; Driebe, T.; Heininger, M.; Hofmann,
   K. -H.; Nußbaum, E.; Schertel, D.; Masciadri, E.
2005CRPhy...6.1129G    Altcode:
  LINC-NIRVANA is a Fizeau (imaging) interferometer exploiting the full
  spatial resolution of a 23 m class telescope in the combined beam of the
  Large Binocular Telescope supported through Multi-Conjugated Adaptive
  Optics (MCAO). By means of science cases, we show how LINC-NIRVANA takes
  advantage of the MCAO, increasing the sky coverage of the instrument
  and the field of view for the Fringe and Flexure tracker. We introduce
  the MCAO system of LINC-NIRVANA in detail, which in a first step will
  be installed with two deformable mirrors per arm and has the provision
  to be upgraded with a third mirror. The MCAO system implements several
  novel concepts proposed for extremely large telescopes, such as layer
  oriented MCAO, optical co-adding of guide stars, or Multiple Field
  of View sensing. LINC-NIRVANA will demonstrate some of the concepts
  for the first time on sky. To cite this article: W. Gaessler et. al.,
  C. R. Physique 6 (2005).

---------------------------------------------------------
Title: VizieR Online Data Catalog: UBVRI photometry and polarimetry
    of DF Tau (Shakhovskoj+, 2006)
Authors: Shakhovskoj, D.; Grinin, V.; Rostopchina, A.; Schertl, D.;
   Hofmann, K. -H.; Weigelt, G.; Balega, Yu.; Kiyaeva, O.; Melnikov, S.
2005yCat..34481075S    Altcode:
  Photometric and polarimetric observations of DF Tau were carried out
  between 1991 and 1998 using the five-band photopolarimeter mounted
  at the 1.25m telescope of the Crimean Astrophysical Observatory
  (CrAO). This instrument permits simultaneous observations of
  polarization and brightness in the U, B, V, R, and I bands. The
  effective wavelengths of the instrumental system are close to the
  standard wavelengths of the Johnson photometric system. <P />(1
  data file).

---------------------------------------------------------
Title: Infrared emission from a clumpy and dusty torus around AGN.
Authors: Beckert, T.; Hoenig, S.; Duschl, W. J.; Weigelt, G.
2005AN....326..536B    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: High-resolution near-infrared speckle interferometry and
    radiative transfer modeling of the OH/IR star OH 26.5+0.6.
Authors: Driebe, T.; Riechers, D.; Balega, Y.; Hofmann, K. -H.;
   Men'shchikov, A. B.; Weigelt, G.
2005AN....326..648D    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Mid-infrared spectro-interferometric observation of the Mira
    variable RR Sco with the VLTI/MIDI instrument.
Authors: Ohnaka, K.; Driebe, T.; Hofmann, K. -H.; Schertl, D.;
   Weigelt, G.
2005AN....326R.567O    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Near-infrared Interferometry with the AMBER Instrument of
    the VLTI.
Authors: Weigelt, G.; Beckert, T.; Beckmann, U.; Driebe, T.; Foy, R.;
   Fraix-Burnet, D.; Hofmann, K. -H.; Kraus, S.; Malbet, F.; Mathias,
   P.; Marconi, A.; Monin, J. -L.; Petrov, R.; Schertl, D.; Stee, P.;
   Testi, L.
2005AN....326..572W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Bispectrum speckle interferometry of the massive protostellar
    outflow source IRAS 23151+5912.
Authors: Preibisch, T.; Beuther, H.; Hofmann, K. -H.; Meyer, M.;
   Schertl, D.; Smith, M. D.; Weigelt, G.; Young, E. T.
2005AN....326..570P    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Mid-infrared long-baseline interferometry of the symbiotic
    Mira star RX Pup with the VLTI/MIDI instrument.
Authors: Driebe, T.; Hofmann, K. -H.; Ohnaka, K.; Preibisch, T.;
   Weigelt, G.; Wittkowski, M.
2005AN....326..649D    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: High-Resolution near-infrared speckle interferometry and
    radiative transfer modeling of the OH/IR star OH 104.9+2.4.
Authors: Riechers, D.; Driebe, T.; Balega, Y.; Hofmann, K. -H.;
   Menshchikov, A. B.; Weigelt, G.
2005AN....326R.666R    Altcode: 2005AN....326..666R
  No abstract at ADS

---------------------------------------------------------
Title: Infrared interferometry of the Seyfert galaxy NGC 1068.
Authors: Weigelt, G.; Balega, Y. Y.; Beckert, T.; Duschl, W. J.;
   Hofmann, K. -H.; Men'shchikov, A. B.; Schertl, D.; Wittkowski, M.
2005AN....326..558W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: VLTI/MIDI observation of the silicate carbon star Hen 38
(IRAS 08002-3803): silicate dust reservoir spatially resolved for
    the  first time.
Authors: Ohnaka, K.; Driebe, T.; Hofmann, K. -H.; Schertl, D.;
   Weigelt, G.
2005AN....326Q.567O    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Bispectrum speckle imaging of the ultracompact HII region
    K3-50A.
Authors: Kraus, S.; Balega, Y. Y.; Hofmann, K. -H.; Preibisch, T.;
   Weigelt, G.
2005AN....326R.563K    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: A quasi-time-dependent radiative transfer model of OH 104.9+2.4
Authors: Riechers, D.; Balega, Y.; Driebe, T.; Hofmann, K. -H.;
   Men'shchikov, A. B.; Shenavrin, V. I.; Weigelt, G.
2005A&A...436..925R    Altcode: 2005astro.ph..2269R
  We investigate the pulsation-phase dependent properties of
  the circumstellar dust shell (CDS) of the OH/IR star <ASTROBJ>OH
  104.9+2.4</ASTROBJ> based on radiative transfer modeling (RTM) using the
  code DUSTY. Our previous study concerning simultaneous modeling of the
  spectral energy distribution (SED) and near-infrared (NIR) visibilities
  (Riechers et al. 2004) has now been extended by means of a more detailed
  analysis of the pulsation-phase dependence of the model parameters of
  <ASTROBJ>OH 104.9+2.4</ASTROBJ>. In order to investigate the temporal
  variation in the spatial structure of the CDS, additional NIR speckle
  interferometric observations in the K' band were carried out with
  the 6 m telescope of the Special Astrophysical Observatory (SAO). At a
  wavelength of λ = 2.12 μm the diffraction-limited resolution of 74 mas
  was attained. Several key parameters of our previous best-fitting model
  had to be adjusted in order to be consistent with the newly extended
  amount of observational data. It was found that a simple rescaling of
  the bolometric flux F_bol is not sufficient to take the variability
  of the source into account, as the change in optical depth τ over a
  full pulsation cycle is rather high. On the other hand, the impact of a
  change in effective temperature T_eff on SED and visibility is rather
  small. However, observations, as well as models for other AGB stars,
  show the necessity of including a variation of T_eff with pulsation
  phase in the radiative transfer models. Therefore, our new best-fitting
  model accounts for these changes.

---------------------------------------------------------
Title: Eta Car through the eyes of interferometers
Authors: Chesneau, Olivier; Van Boekel, R.; Herbst, T.; Kervella,
   P.; Min, M.; Waters, L. B. F. M.; Leinert, Ch.; Petrov, R.; Weigelt, G.
2005astro.ph..6756C    Altcode:
  The core of the nebula surrounding Eta Carinae has recently been
  observed with VLT/NACO, VLTI/VINCI, VLTI/MIDI and VLTI/AMBER in order
  to spatially and spectrally constrain the warm dusty environment and
  the central object. Narrow-band images at 3.74 and 4.05 micron reveal
  the structured butterfly-shaped dusty environment close to the central
  star with an unprecedented spatial resolution of about 60 mas. VINCI
  has resolved the present-day stellar wind of Eta Carinae on a scale of
  several stellar radii owing to the spatial resolution of the order of
  5 mas (11 AU). The VINCI observations show that the object is elongated
  with a de-projected axis ratio of approximately 1.5. Moreover the major
  axis is aligned with that of the large bipolar nebula that was ejected
  in the 19th century. Fringes have also been obtained in the Mid-IR
  with MIDI using baselines of 75m. A peak of correlated flux of 100
  Jy is detected 0.3" south-east from the photocenter of the nebula at
  8.7 micron is detected. This correlated flux is partly attributed to
  the central object but it is worth noting that at these wavelengths,
  virtually all the 0.5" x 0.5" central area can generate detectable
  fringes witnessing the large clumping of the dusty ejecta. These
  observations provide an upper limit for the SED of the central source
  from 3.8 to 13.5 micron and constrain some parameters of the stellar
  wind which can be compared to Hillier's model. Lastly, we present the
  great potential of the AMBER instrument to study the numerous near-IR
  emissive lines from the star and its close vicinity. In particular,
  we discuss its ability to detect and follow the faint companion.

---------------------------------------------------------
Title: Orbits of new Hipparcos binaries. I
Authors: Balega, I. I.; Balega, Y. Y.; Hofmann, K. -H.; Pluzhnik,
   E. A.; Schertl, D.; Shkhagosheva, Z. U.; Weigelt, G.
2005A&A...433..591B    Altcode:
  We present first orbits for 6 new Hipparcos binaries. The orbits were
  determined from speckle interferometric measurements collected mainly
  at the6m BTAtelescope of the Special Astrophysical Observatory
  in Zelenchuk. Three of the systems, HIP 11352, HIP 14075
  and HIP 14230, have late G- or early K-type components, while
  HIP 14669 = GJ 125, HIP 106972 = GJ 4210 and HIP 111685 =
  GJ 4287 have M-type components. The periods of the orbits are in
  the range of6-28years. Mass sums and their errors are derived for the
  systems. The Hipparcos parallax error is the dominating error source
  of themass determination. <P />Based on observations made with the
  6-m BTA telescope, which is operated by the Special Astrophysical
  Observatory, Russia.

---------------------------------------------------------
Title: Mid-infrared interferometry of the Mira variable RR Sco with
    the VLTI MIDI instrument
Authors: Driebe, T.; Ohnaka, K.; Weigelt, G.
2005ESASP.560..351D    Altcode: 2005csss...13..351D
  No abstract at ADS

---------------------------------------------------------
Title: Atmospheric Elemental Abundances for the Components of the
    Multiple System ADS 11061. 41 Draconis
Authors: Balega, Yu. Yu.; Leushin, V. V.; Weigelt, G.
2005ARep...49..217B    Altcode:
  We obtained speckle interferometric and spectroscopic observations
  of the system 41 Dra during its periastron passage in 2001. The
  components’ lines are resolved in the spectral interval 3700 9200
  Å. The observed wavelength dependence of the brightness difference
  between the components is used to estimate the B-V indices separately
  for each of the components: B-V = 0.511 for component a and B-V =
  0.502 for component b. We derived improved effective temperatures of
  the components from their B-V values and hydrogen-line profiles. The
  observations can be described with the parameters for the components T
  eff a = 6370 K, log g a = 4.05 and T eff b = 6410 K, log g b = 4.20. The
  iron, carbon, nitrogen, and oxygen abundances in the atmospheres of
  the components are log N(Fe)a = 7.55, log N(Fe)b = 7.60, log N(C)a =
  8.52, log N(C)b = 8.58, log N(N)a = 8.05, log N(N)b = 7.99, log N(O)a =
  8.73, log N(O)b = 8.76.

---------------------------------------------------------
Title: Interferometric observations of the Mira star o Ceti with
    the VLTI/VINCI instrument in the near-infrared
Authors: Hofmann, K. -H.; Eberhardt, M.; Driebe, T.; Schertl, D.;
   Scholz, M.; Schoeller, M.; Weigelt, G.; Wittkowski, M.; Woodruff, H. C.
2005ESASP.560..651H    Altcode: 2005csss...13..651H
  No abstract at ADS

---------------------------------------------------------
Title: Close binary companions of the HAeBe stars LkHα 198, Elias 1,
    HK Ori and V380 Ori
Authors: Smith, K. W.; Balega, Y. Y.; Duschl, W. J.; Hofmann, K. -H.;
   Lachaume, R.; Preibisch, T.; Schertl, D.; Weigelt, G.
2005A&A...431..307S    Altcode: 2004astro.ph.10449S
  We present diffraction-limited bispectrum speckle interferometry
  observations of four well-known Herbig Ae/Be (HAeBe) stars,
  <ASTROBJ>LkHα 198</ASTROBJ>, <ASTROBJ>Elias 1</ASTROBJ>, <ASTROBJ>HK
  Ori</ASTROBJ> and <ASTROBJ>V380 Ori</ASTROBJ>. For two of these,
  LkHα 198 and Elias 1, we present the first unambiguous detection of
  close companions. The plane of the orbit of the new LkHα 198 companion
  appears to be significantly inclined to the plane of the circumprimary
  disk, as inferred from the orientation of the outflow. We show that
  the Elias 1 companion may be a convective star, and suggest that
  it could therefore be the true origin of the X-ray emission from
  this object. In the cases of HK Ori and V380 Ori, we present new
  measurements of the relative positions of already-known companions,
  indicating orbital motion. For HK Ori, photometric measurements of
  the brightness of the individual components in four bands allowed us
  to decompose the system spectral energy distribution (SED) into the
  two separate component SEDs. The primary exhibits a strong infrared
  excess which suggests the presence of circumstellar material, whereas
  the companion can be modelled as a naked photosphere. The infrared
  excess of HK Ori A was found to contribute around two thirds of the
  total emission from this component, suggesting that accretion power
  contributes significantly to the flux. Submillimetre constraints mean
  that the circumstellar disk cannot be particularly massive, whilst
  the near-infrared data indicates a high accretion rate. Either the
  disk lifetime is very short, or the disk must be seen in an outburst
  phase. <P />Based on observations performed with the 6 m telescope
  of the Special Astrophysical Observatory, Russia, the 2.2 m ESO/MPG
  telescope at La Silla, and with the NASA/ESA Hubble Space Telescope,
  obtained from the data archive at the Space Telescope Institute. STScI
  is operated by the association of Universities for Research in
  Astronomy, Inc. under the NASA contract NAS 5-26555.

---------------------------------------------------------
Title: Mid-infrared interferometry of the Mira variable RR Sco with
    the VLTI MIDI instrument
Authors: Ohnaka, K.; Bergeat, J.; Driebe, T.; Graser, U.; Hofmann,
   K. -H.; Köhler, R.; Leinert, Ch.; Lopez, B.; Malbet, F.; Morel, S.;
   Paresce, F.; Perrin, G.; Preibisch, Th.; Richichi, A.; Schertl, D.;
   Schöller, M.; Sol, H.; Weigelt, G.; Wittkowski, M.
2005A&A...429.1057O    Altcode:
  We present the results of the first mid-infrared interferometric
  observations of the Mira variable RR Sco with the MID-infrared
  Interferometer (MIDI) coupled to the European Southern Observatory's
  (ESO) Very Large Telescope Interferometer (VLTI), together with
  K-band observations using VLTI VINCI. The observations were carried
  out in June 2003, when the variability phase of the object was 0.6,
  using two unit telescopes (UT1 and UT3), as part of the Science
  Demonstration Time (SDT) program of the instrument. Projected baseline
  lengths ranged from 73 to 102 m, and a spectral resolution of 30 was
  employed in the observations, which enabled us to obtain the wavelength
  dependence of the visibility in the region between 8 and 13 μm. The
  uniform-disk diameter was found to be 18 mas between 8 and 10 μm,
  while it gradually increases at wavelengths longer than 10 μm to
  reach 24 mas at 13 μm. The uniform-disk diameter between 8 and 13
  μm is significantly larger than the K-band uniform-disk diameter
  of 10.2 ± 0.5 mas measured using VLTI VINCI with projected baseline
  lengths of 15-16 m, three weeks after the MIDI observations. Our model
  calculations show that optically thick emission from a warm molecular
  envelope consisting of H<SUB>2</SUB>O and SiO can cause the apparent mid
  -infrared diameter to be much larger than the continuum diameter. We
  find that the warm molecular envelope model extending to ∼2.3
  R<SUB>\star</SUB> with a temperature of ∼1400 K and column densities
  of H<SUB>2</SUB>O and SiO of 3 × 10<SUP>21</SUP> cm<SUP>-2</SUP> and
  1 × 10<SUP>20</SUP> cm<SUP>-2</SUP>, respectively, can reproduce the
  observed uniform-disk diameters between 8 and 10 μm. The observed
  increase of the uniform-disk diameter longward of 10 μm can be
  explained by an optically thin dust shell consisting of silicate and
  corundum grains. The inner radius of the optically thin dust shell is
  derived to be 7-8 R<SUB>\star</SUB> with a temperature of ∼700 K,
  and the optical depth at 10 μm is found to be ∼0.025. <P />Based
  on observations made with the Very Large Telescope Interferometer of
  the European Southern Observatory.

---------------------------------------------------------
Title: Near-infrared interferometry of AGN
Authors: Weigelt, G.; Beckert, T.; Hofmann, K. -H.; Schertl, D.;
   Wittkowski, M.
2005MmSAI..76...39W    Altcode:
  Interferometry in the infrared is able to resolve the sub-parsec-scale
  dust environment surrounding the accretion disk of AGN. A
  diffraction-limited K'-band image of NGC 1068 with 74 mas resolution
  and the first H-band image with 57 mas resolution were reconstructed
  from speckle interferograms obtained with the SAO 6 m telescope. The
  resolved structure consists of a compact core and an extended northern
  and south-eastern component. The compact core has a north-western,
  tail-shaped extension. The K'-band FWHM diameter of this compact core is
  approximately 18 × 39 mas (± 4 mas) or 1.3 × 2.8 pc, and the position
  angle (PA) of the north-western extension is -16<SUP>o</SUP>. The
  PA of -16<SUP>o</SUP> is similar to that of the western wall of the
  ionization cone. This suggests that the H- and K'-band emission from
  the compact core is both thermal emission and scattered light from
  dust near the western wall of a low-density, conical outflow cavity
  or from the innermost region of a parsec-scale dusty torus. The first
  K-band long-baseline interferometry of the nucleus of NGC 1068 with
  resolution lambda /B ∼ 10 mas was obtained with the ESO VLTI. A
  squared visibility amplitude of 16 ± 4% was measured at a baseline of
  46 m. Taking into account K-band speckle interferometry observations,
  the VLTI observations suggest a multi-component structure, where part
  of the flux originates from scales clearly smaller than ∼ 5 mas or
  0.4 pc. <P />Based on public commissioning data released from the VLTI
  and data collected at the SAO 6 m telescope in Russia.

---------------------------------------------------------
Title: Modelling a Circumstellar Disc Traced by Methanol Masers
Authors: Pestalozzi, M. R.; Elitzur, M.; Minier, V.; Conway, J.;
   Booth, R.; de Buizer, J.; Weigelt, G.
2005prpl.conf.8129P    Altcode: 2005LPICo1286.8129P
  No abstract at ADS

---------------------------------------------------------
Title: MWC297: Disk and Wind Spatially Resolved with VLTI/AMBER
Authors: Benisty, M.; Malbet, F.; de Wit, W. J.; Kraus, S.; Meilland,
   A.; Millour, F.; Tatulli, E.; Berger, J. -P.; Chesneau, O.; Hofmann,
   K. -H.; Isella, A.; Petrov, R.; Preisbich, T.; Stee, P.; Testi, L.;
   Weigelt, G.; AMBER Consortium
2005prpl.conf.8395B    Altcode: 2005LPICo1286.8395B
  No abstract at ADS

---------------------------------------------------------
Title: Outflow Structures from the Young High-Mass Star NGC 7538
    IRS1 Revealed by Near-Infrared Bispectrum Speckle Interferometry
Authors: Kraus, S.; Hofmann, K. -H.; Preibisch, Th.; Schertl, D.;
   Weigelt, G.; Elitzur, M.; Pestalozzi, M. R.; Meyer, M.; Young, E. T.
2005prpl.conf.8335K    Altcode: 2005LPICo1286.8335K
  No abstract at ADS

---------------------------------------------------------
Title: Recombining light of the VLTI at 10 microns by densifying
    the images
Authors: Dugue, Michel; Lopez, Bruno; Przygodda, Frank; Graser, Uwe;
   Gitton, Philippe B.; Wolf, Sebastian; Mathias, Philippe; Antonelli,
   Pierre; Augereau, J. C.; Berruyer, Nicole; Bresson, Yves; Chesneau,
   Olivier; Dutrey, Anne; Flament, Sebastien; Glazenborg-Kluttig, Annelie
   W.; Glindemann, Andreas; Henning, Thomas; Hofmann, Karl-Heinz; Lagarde,
   Stephane; Hugues, Yves; Leinert, Christoph; Meisenheimer, Klaus;
   Menut, Jean-Luc; Rohloff, Ralf-Rainer; Roussel, Alain; Thiebaut,
   Eric M.; Weigelt, Gerd P.
2004SPIE.5491.1536D    Altcode:
  APreS-MIDI (APerture Synthesis in the MID-Infrared) instrument function
  is to recombine 4 telescope beams of the VLTI. Interference fringes
  are sampled in the pupil plane. The optical principle uses "image
  densification". It is perfectly adapted for reconstructing images by
  aperture synthesis at 10mm. This principle could be used for building
  a new generation 10mm instrument, but instead of making a totally new
  instrument, we propose the design of an optical module that can supply
  the current MIDI-VLTI instrument with 4 beams.

---------------------------------------------------------
Title: Diffraction-limited bispectrum speckle interferometry of the
    nuclear region of the Seyfert galaxy <ASTROBJ>NGC 1068</ASTROBJ>
    in the H and K' bands
Authors: Weigelt, G.; Wittkowski, M.; Balega, Y. Y.; Beckert, T.;
   Duschl, W. J.; Hofmann, K. -H.; Men'shchikov, A. B.; Schertl, D.
2004A&A...425...77W    Altcode:
  We present near-infrared bispectrum speckle interferometry
  studies of the nuclear region of the Seyfert 2 galaxy <ASTROBJ>NGC
  1068</ASTROBJ>. A diffraction-limited K'-band image with 74 mas
  resolution and the first H-band image with 57 mas resolution were
  reconstructed from speckle interferograms obtained with the SAO 6 m
  telescope. The resolved structure consists of a compact core and an
  extended northern and south-eastern component. The compact core is
  resolved at all position angles and has a north-western, tail-shaped
  extension as well as a fainter, south-eastern extension. The K'-band
  FWHM diameter of this compact core is approximately 18 × 39 mas or
  1.3 × 2.8 pc (FWHM of a single-component Gaussian fit; fit range
  30-80&amp;%slash; of the telescope cut-off frequency; the diameter
  errors are ±4 mas), and the position angle (PA) of the north-western
  extension is -16 ± 4 °. If 40% of the flux from the compact K' core
  is emission from a point source and 60% from a Gaussian intensity
  distribution, then a slightly larger FWHM of approximately 26 × 58
  mas is obtained for the compact K' component. In the H band, the FWHM
  diameter of the compact core is approximately 18 × 45 mas (±4 mas),
  and the PA is -18 ± 4 °. The extended northern component (PA ∼ 0
  °) has an elongated structure with a length of about 400 mas or 29
  pc. The extended south-eastern component is fainter than the northern
  component. The K'- and H-band fluxes from the resolved compact core
  were measured to be 350 ± 90 mJy (i.e., K' ∼ 8.2<SUP>m</SUP>) and
  70 ± 20 mJy (H ∼ 10.4<SUP>m</SUP>), respectively. The PA of -16 ±
  4 ° of the compact 18 × 39 mas core is very similar to that of the
  western wall (PA ∼ -15 °) of the bright region of the ionization
  cone. This suggests that the H- and K'-band emission from the compact
  core is both thermal emission and scattered light from dust near the
  western wall of a low-density, conical cavity or from the innermost
  region of a parsec-scale dusty torus that is heated by the central
  source (the dust sublimation radius of <ASTROBJ>NGC 1068</ASTROBJ>
  is approximately 0.1-1 pc). The northern extended 400 mas structure
  lies near the western wall of the ionization cone and coincides with
  the inner radio jet (PA ∼ 11 °). The large distance from the core
  suggests that the K'-band emission of the northern extended component
  is scattered light from the western cavity region and the radio jet
  region. <P />Based on observations made with the 6 m BTA telescope,
  which is operated by the Special Astrophysical Observatory (SAO),
  Russia.

---------------------------------------------------------
Title: APreS-MIDI, APerture Synthesis in the MID-infrared with
    the VLTI
Authors: Lopez, Bruno; Przygodda, Frank; Wolf, Sebastian; Dugue,
   Michel; Graser, Uwe; Gitton, Philippe B.; Mathias, Philippe; Antonelli,
   Pierre; Augereau, J. C.; Berruyer, Nicole; Bresson, Yves; Chesneau,
   Olivier; Dutrey, Anne; Flament, Sebastien; Glazenborg, Annelie;
   Glindemann, Andreas; Henning, Thomas; Hofmann, Karl-Heinz; Hugues,
   Yves; Lagarde, Stephane; Leinert, Christoph; Meisenheimer, Klaus;
   Menut, Jean-Luc; Rohloff, Ralf-Rainer; Roussel, Alain; Thiebaut,
   Eric M.; Weigelt, Gerd P.
2004SPIE.5491..433L    Altcode:
  We are studying an optical concept aiming at recombining four
  mid-infrared telescope beams, where interference fringes are
  sampled in the pupil plane. Such a principle is perfectly adapted
  for reconstructing images by aperture synthesis with teh VLTI. It
  could be used for building a new generation 10 μm instrument, but
  instead of doing a totally new instrument, we propose the design of
  an optical module that can supply the surrent MIDI-VLTI instrument
  with 4 beams. The combined use of this module together with the MIDI
  instrument is the project called APreS-MIDI. Such an instrument at the
  VLTI focus will have an unique and very strong astrophysical potential.

---------------------------------------------------------
Title: The fringe and flexure tracking detector of the LBT
    LINC-NIRVANA beam-combiner instrument
Authors: Beckmann, Udo; Behrend, Jan; Bohnhardt, Hermann; Connot,
   Claus; Driebe, Thomas M.; Heininger, Matthias; Herbst, Thomas M.;
   Hofmann, Karl-Heinz; Nussbaum, Edmund; Schertl, Dieter; Solscheid,
   Walter; Straubmeier, Christian; Weigelt, Gerd P.
2004SPIE.5491.1445B    Altcode:
  LINC-NIRVANA is a near-infrared (1-2.4 micron) beam-combiner instrument
  for the Large Binocular Telescope (LBT). LINC-NIRVANA is being built
  by a consortium of groups at the Max-Planck-Institut fur Astronomie in
  Heidelberg, the Osservatorio Astrofisico di Arcetri in Florence, the
  Universitat zu Koln, and the Max-Planck-Institut fur Radioastronomie in
  Bonn. The MPI fur Radioastronomie is responsible for the near-infrared
  detector for the fringe and flexure tracking system (FFTS). We describe
  the design and construction of the detector control electronics as
  well as the first laboratory measurements of performance parameters
  of the NIR detector for the fringe and flexure tracking system of
  the LBT LINC-NIRVANA instrument. This detector has to record LBT
  interferograms of suitable reference stars in the FOV at a frame
  rate of the order of 200 frames per second using, for example, 32
  × 32-pixel subframes. Moreover, special noise reduction techniques
  have to be applied. The fringe-tracker interferograms are required
  for monitoring and closed-loop correction of the atmospheric optical
  path difference of the two LBT wavefronts (see C. Straubmeier et al.,
  "A fringe and flexure tracking system for LINC-NIRVANA: basic design and
  principle of operation"). We will describe our laboratory measurements
  of maximum frame rate, readout noise, photometric stability, and other
  important parameters together with first measurements of laboratory
  simulations of LBT interferograms.

---------------------------------------------------------
Title: Interferometric observations of the Mira star o Ceti with
    the VLTI/VINCI instrument in the near-infrared
Authors: Woodruff, Henry C.; Eberhardt, Maren; Driebe, Thomas M.;
   Hofmann, Karl-Heinz; Ohnaka, Keiichi; Richichi, Andrea; Schertl,
   Dieter; Schoeller, Markus; Scholz, Michael; Weigelt, Gerd P.;
   Wittkowski, Markus; Wood, Peter R.
2004SPIE.5491.1707W    Altcode:
  We present K-band commissioning observations of the Mira star prototype
  o Cet obtained at the ESO Very Large Telescope Interferometer (VLTI)
  with the VINCI instrument and two siderostats. The observations were
  carried out between 2001 October and December, in 2002 January and
  December, and in 2003 January. Rosseland angular radii are derived from
  the measured visibilities by fitting theoretical visibility functions
  obtained from center-to-limb intensity variations (CLVs) of Mira star
  models. Using the derived Rosseland angular radii and the spectral
  energy distributions (SEDs) reconstructed from available photometric
  and spectrophotometric data, we find effective temperatures ranging
  from T_eff=3192 +/- 200 K at phase 0.13 to 2918 +/- 183 K at phase
  0.26. Comparison of these Rosseland radii, effective temperatures, and
  the shape of the observed visibility functions with model predictions
  suggests that o Cet is a fundamental mode pulsator. Furthermore, we
  investigated the variation of visibility function and diameter with
  phase. The Rosseland angular diameter of o Cet increased from 28.9 +/-
  0.3 mas (corresponding to a Rosseland radius of 332 +/- 38 Rsun for a
  distance of D=107 +/- 12 pc) at phase 0.13 to 34.9 +/- 0.4 mas (402
  +/- 46 Rsun) at phase 0.4. The observational error of the Rosseland
  linear radius almost entirely results from the error of the parallax,
  since the error of the angular diameter is only approximately 1%.

---------------------------------------------------------
Title: The fringe and flexure tracking system for LINC-NIRVANA:
    basic design and principle of operation
Authors: Straubmeier, Christian; Bertram, Thomas; Eckart, Andreas;
   Wang, Yibing; Zealouk, Lahbib; Herbst, Thomas M.; Andersen, David R.;
   Ragazzoni, Roberto; Weigelt, Gerd P.
2004SPIE.5491.1486S    Altcode:
  LINC-NIRVANA is the interferometric near-infrared imaging camera
  for the Large Binocular Telescope (LBT). Operating at JHK bands
  LINC-NIRVANA will provide an unique and unprecedented combination of
  high angular resolution (~9 milliarcseconds at 1.25 μm), wide field of
  view (~100 arcseconds2 at 1.25 μm), and large collecting area (~100
  m2). One of the major contributions of the I. Physikalische Institut
  of the University of Cologne to this project is the development of the
  Fringe and Flexure Tracking System (FFTS). In close cooperation with
  the Adaptive Optics systems of LINC-NIRVANA the FFTS is a fundamental
  component to ensure a complete and time-stable wavefront correction
  at the position of the science detector in order to allow for long
  integration times at interferometric angular resolutions. Using a
  dedicated near-infrared detector array at a combined focus close to
  the science detector, the Fringe and Flexure Tracking System analyses
  the interferometric point spread function (PSF) of a suitably bright
  reference source at frame rates of several hundred Hertz up to 1 kHz. By
  fitting a parameterized theoretical model PSF to the preprocessed
  image-data the FFTS determines the amount of pistonic phase difference
  and the amount of an angular misalignment between the wavefronts of the
  two optical paths of LINC-NIRVANA. For every exposure the correcting
  parameters are derived in real-time and transmitted to the respective
  control electronics, or the Adaptive Optics systems of the single-eye
  telescopes, which will adjust their optical elements accordingly. In
  this paper we present the opto-mechanical hardware design, the
  principle of operation of the software control algorithms, and the
  results of first numerical simulations and laboratory experiments of
  the performance of this Fringe and Flexure Tracking System.

---------------------------------------------------------
Title: High-resolution near-infrared speckle interferometry and
    radiative transfer modeling of the OH/IR star OH 104.9+2.4
Authors: Riechers, Dominik; Balega, Yuri Y.; Driebe, Thomas M.;
   Hofmann, Karl-Heinz; Men'shchikov, Alexander B.; Schertl, Dieter;
   Weigelt, Gerd P.
2004SPIE.5491.1714R    Altcode:
  We present near-infrared speckle interferometry of the OH/IR star
  OH 104.9+2.4 in the K' band obtained with the 6m telescope of the
  Special Astrophysical Observatory (SAO). At a wavelength of λ = 2.12
  micron the diffraction-limited resolution of 74 mas was attained. The
  reconstructed visibility reveals a spherically symmetric, circumstellar
  dust shell (CDS) surrounding the central star. The visibility function
  shows that the stellar contribution to the total flux at λ = 2.12
  micron is less than 50%, indicating a rather large optical depth of
  the CDS. The azimuthally averaged 1-dimensional Gaussian visibility
  fit yields a diameter of 47 +/- 3 mas (FHWM), which corresponds
  to 112 +/- 13 AU for an adopted distance of D = 2.38 + 0.24 kpc. To
  determine the structure and the properties of the CDS of OH 104.9+2.4,
  radiative transfer calculations using the code DUSTY were performed to
  simultaneously model its visibility and the spectral energy distribution
  (SED). We found that both the ISO spectrum and the visibility of OH
  104.9+2.4 can be well reproduced by a radiative transfer model with an
  effective temperature Teff = 2500 +/- 500 K of the central source, a
  dust temperature Tin = 1000 +/- 200 K at the inner shell boundary Rin =
  9.1 Rstar = 25.4 AU, an optical depth tau = 6.5 +/- 0.3 at 2.2 micron,
  and dust grain radii ranging from amin = 0.005 +/- 0.003 micron to
  amax = 0.2 +/- 0.02 micron with a power law with index -3.5. It was
  found that even minor changes in amax have a major impact on both the
  slope and the curvature of the visibility function, while the SED shows
  only minor changes. Our detailed analysis demonstrates the potential
  of dust shell modeling constrained by both the SED and visibilities.

---------------------------------------------------------
Title: The VLTI focal instrument Amber: results of the first phase
    of the alignment, integration, and verification in Paranal
Authors: Robbe-Dubois, Sylvie; Petrov, Romain G.; Lagarde, Stephane;
   Antonelli, Pierre; Bresson, Yves; Roussel, Alain; Mourard, Denis;
   Malbet, Fabien; Millour, Florentin; Zins, Gerard; Delboulbe, Alain;
   Duvert, Gilles; Gluck, Laurence; Kern, Pierre Y.; Le Coarer, Etienne
   P.; Rousselet-Perraut, Karine; Tatulli, Eric; Beckmann, Udo; Heininger,
   Matthias; Weigelt, Gerd P.; Lisi, Franco; Stefanini, Paolo; Accardo,
   Matteo; Gil, Carla S.; Vannier, Martin; Haddad, Nicholas; Housen,
   Nico; Kiekebusch, Mario; Mardones, Pedro; Puech, Florence; Rantakyro,
   Fredrik T.; Richichi, Andrea; Schoeller, Markus
2004SPIE.5491.1089R    Altcode:
  AMBER, Astronomical Multi BEam combineR, is the near-infrared focal
  instrument dedicated to the VLTI. It is designed to combine three
  of the VLTI Telescopes and to work simultaneously in the J, H and K
  spectral bands (1.0 to 2.4 μm). The project successfully passed the
  Preliminary Acceptance in Europe in November 2003, resulting in the
  validation of the instrument laboratory performance1, of the compliance
  with the initial scientific specifications, and of the acceptance of
  ESO for AMBER to be part of the VLTI. After the transportation of the
  instrument to Paranal, Chile in January 2004, the Assembly Integration
  and Verification phase occurred mid-March to succeed with the first
  fringes observing bright stars with the VLTI siderostats. This paper
  describes the different steps of the AIV and the first results in terms
  of instrumental stability, estimated visibility and differential phase.

---------------------------------------------------------
Title: Science program of the AMBER consortium
Authors: Malbet, Fabien; Driebe, Thomas M.; Foy, Renaud; Fraix-Burnet,
   Didier; Mathias, Philippe; Marconi, Alessandro; Monin, Jean-Louis;
   Petrov, Romain G.; Stee, Philippe; Testi, Leonardo; Weigelt, Gerd P.
2004SPIE.5491.1722M    Altcode:
  AMBER had first light in March 2004. The guaranteed time observations
  of the AMBER consortium (LAOG, MPIfR, OAA, OCA, UNSA) consists of
  87 proposals ranging from cosmology, extragalactic studies, star
  formation, planetary system, late stages of stellar evolution to
  physical properties of stars. Some examples, AGN, evolved stars and
  hot stars are discussed in this paper.

---------------------------------------------------------
Title: LINC-NIRVANA: the single arm MCAO experiment
Authors: Egner, Sebastian E.; Gaessler, Wolfgang; Herbst, Tom M.;
   Ragazzoni, Roberto; Stuik, Remko; Andersen, D. A.; Arcidiacono, C.;
   Baumeister, H.; Beckmann, U.; Behrend, J.; Bertram, T.; Bizenberger,
   P.; Boehnhardt, H.; Diolaiti, E.; Driebe, T.; Eckhardt, A.; Farinato,
   J.; Kuerster, M.; Laun, W.; Ligori, S.; Naranjo, Vianak; Nußbaum, E.;
   Rix, H. -W.; Rohloff, R. -R.; Salinari, Piero; Soci, R.; Straubmeier,
   C.; Vernet-Viard, E.; Weigelt, Gerd P.; Weiss, R.; Xu, W.
2004SPIE.5490..924E    Altcode:
  LINC-NIRVANA is an imaging interferometer for the Large Binocular
  Telescope (LBT) and will make use of multi-conjugated adaptive
  optics (MCAO) with two 349 actuators deformable mirrors (DM), two
  672 actuator deformable secondary mirrors and a total of 4 wavefront
  sensors (WFS) by using 8 or 12 natural guide stars each. The goal of
  the MCAO is to increase sky coverage and achieve a medium Strehl-ratio
  over the 2 arcmin field of view. To test the concepts and prototypes,
  a laboratory setup of one MCAO arm is being built. We present the layout
  of the MCAO prototype, planned and accomplished tests, especially for
  the used Xinetics DMs, and a possible setup for a test on sky with an
  existing 8m class telescope.

---------------------------------------------------------
Title: LINC-NIRVANA: how to get a 23-m wavefront nearly flat
Authors: Gaessler, Wolfgang; Ragazzoni, Roberto; Herbst, Thomas
   M.; Andersen, David R.; Arcidiacono, Carmelo; Baumeister, Harald;
   Beckmann, Udo; Behrend, Jan; Bertram, Thomas; Bizenberger, Peter;
   Bohnhardt, Hermann; Briegel, F.; Diolaiti, Emiliano; Driebe, Thomas
   M.; Eckhardt, A.; Egner, Sebastian E.; Farinato, Jacopo; Heininger,
   Matthias; Kürster, M.; Laun, Werner; Ligori, Sebastiano; Naranjo,
   Vianak; Nussbaum, Edmund; Rix, Hans-Walter; Rohloff, Ralf-Rainer;
   Salinari, Piero; Soci, Roberto; Storz, Clemens; Straubmeier, Christian;
   Vernet-Viard, Elise; Weigelt, Gerd P.; Weiss, Robert; Xu, Wenli
2004SPIE.5490..527G    Altcode:
  On the way to the Extremely Large Telescopes (ELT) the Large Binocular
  Telescope (LBT) is an intermediate step. The two 8.4m mirrors create a
  masked aperture of 23m. LINC-NIRVANA is an instrument taking advantage
  of this opportunity. It will get, by means of Multi-Conjugated
  Adaptive Optics (MCAO), a moderate Strehl Ratio over a 2 arcmin field
  of view, which is used for Fizeau (imaging) interferometry in J,H
  and K. Several MCAO concepts, which are proposed for ELTs, will be
  proven with this instrument. Studies of sub-systems are done in the
  laboratory and the option to test them on sky are kept open. We will
  show the implementation of the MCAO concepts and control aspects of
  the instrument and present the road map to the final installation at
  LBT. Major milestones of LINC-NIRVANA, like preliminary design review
  or final design review are already done or in preparation. LINC-NIRVANA
  is one of the few MCAO instruments in the world which will see first
  light and go into operation within the next years.

---------------------------------------------------------
Title: High-resolution near-infrared speckle interferometry and
    radiative transfer modeling of the OH/IR star OH 104.9+2.4
Authors: Riechers, D.; Balega, Y.; Driebe, T.; Hofmann, K. -H.;
   Men'shchikov, A. B.; Weigelt, G.
2004A&A...424..165R    Altcode: 2004astro.ph..6092R
  We present near-infrared speckle interferometry of the OH/IR star
  <ASTROBJ>OH 104.9+2.4</ASTROBJ> in the K' band obtained with the
  6 m telescope of the Special Astrophysical Observatory (SAO). At a
  wavelength of λ = 2.12 μm the diffraction-limited resolution of 74
  mas was attained. The reconstructed visibility reveals a spherically
  symmetric, circumstellar dust shell (CDS) surrounding the central
  star. The visibility function shows that the stellar contribution to
  the total flux at λ = 2.12 μm is less than ∼50%, indicating a rather
  large optical depth of the CDS. The azimuthally averaged 1-dimensional
  Gaussian visibility fit yields a diameter of 47 ± 3 mas (FHWM), which
  corresponds to 112 ± 13 AU for an adopted distance of D = 2.38 ±
  0.24 kpc. To determine the structure and the properties of the CDS of
  <ASTROBJ>OH 104.9+2.4</ASTROBJ>, radiative transfer calculations using
  the code DUSTY were performed to simultaneously model its visibility
  and the spectral energy distribution (SED). We found that both the
  ISO spectrum and the visibility of <ASTROBJ>OH 104.9+2.4</ASTROBJ>
  can be well reproduced by a radiative transfer model with an effective
  temperature T<SUB>eff</SUB> = 2500 ± 500 K of the central source,
  a dust temperature T<SUB>in</SUB> = 1000 ± 200 K at the inner shell
  boundary R<SUB>in</SUB> ≃ 9.1 R<SUB>*</SUB> = 25.4 AU, an optical
  depth τ<SUB>2.2 μm</SUB> = 6.5 ± 0.3, and dust g rain radii ranging
  from a<SUB>min</SUB> = 0.005 ± 0.003 μm to a<SUB>max</SUB> = 0.2
  ± 0.02 μm with a power law n(a) ∝ a<SUP>-3.5</SUP>. It was found
  that even minor changes in a<SUB>max</SUB> have a major impact on
  both the slope and the curvature of the visibility function, while
  the SED shows only minor changes. Our detailed analysis demonstrates
  the potential of dust shell modeling constrained by both the SED and
  visibilities. <P />Based on data collected at the 6 m BTA telescope
  of the Special Astrophysical Observatory in Russia.

---------------------------------------------------------
Title: UML modeling of the LINC-NIRVANA control software
Authors: Gaessler, Wolfgang; Bertram, Thomas; Briegel, F.; Driebe,
   Thomas M.; Heininger, Matthias; Nussbaum, Edmund; Storz, Clemens;
   Wang, J.; Zealouk, Lahbib; Herbst, Thomas M.; Ragazzoni, Roberto;
   Eckhardt, A.; Weigelt, Gerd P.
2004SPIE.5496...79G    Altcode:
  LINC-NIRVANA is a Fizeau interferometer for the Large Binocular
  Telescope (LBT) doing imaging in the near infrared (J,H,K -
  band). Multi-conjugated adaptive optics is used to increase sky
  coverage and to get diffraction limited images over a 2 arcminute
  field of view. The control system consists of five independent loops,
  which are mediated through a master control. Due to the configuration,
  LINC-NIRVANA has no delay line like other interferometers. To remove
  residual atmospheric piston, the system must control both the primary
  and secondary mirrors, in addition to a third, dedicated piston
  mirror. This leads to a complex and interlocked control scheme and
  software. We will present parts of the instrument software design,
  which was developed in an object-oriented manner using UML. Several
  diagram types were used to structure the overall system and to evaluate
  the needs and interfaces of each sub-system to each other.

---------------------------------------------------------
Title: The LINC-NIRVANA interferometric imager for the Large
    Binocular Telescope
Authors: Herbst, Tom M.; Ragazzoni, Roberto; Eckart, Andreas;
   Weigelt, Gerd
2004SPIE.5492.1045H    Altcode:
  We describe LINC-NIRVANA, a 1-2.5 micron interferometric imaging
  instrument for the Large Binocular Telescope. Operating in Fizeau
  beam combination mode, LINC-NIRVANA will deliver the sensitivity
  of a 12-meter telescope and the angular resolution of a 23-meter
  telescope. Unlike traditional interferometers, LINC-NIRVANA will
  be a true imaging device, with a field of view of ten arcseconds on
  a single HAWAII-2 detector array. LINC-NIRVANA employs a number of
  state-of-the-art technologies, including multi-conjugated adaptive
  optics (MCAO), innovative cooling systems, and complex software for
  instrument control and data analysis. We report on overall project
  progress and highlight some unique aspects of LINC-NIRVANA that should
  be of wider interest to the near-infrared instrument-building community.

---------------------------------------------------------
Title: Speckle interferometry of nearby multiple stars. II.
Authors: Balega, I.; Balega, Y. Y.; Maksimov, A. F.; Pluzhnik, E. A.;
   Schertl, D.; Shkhagosheva, Z. U.; Weigelt, G.
2004A&A...422..627B    Altcode:
  This paper is a continuation of diffraction-limited speckle
  interferometry of binary and multiple stars carried out at the 6-m
  telescope of the Special Astrophysical Observatory in Zelenchuk. The
  program has concentrated on nearby (π&gt;10 mas) close binaries
  discovered or measured during the Hipparcos mission. Here, we present
  132 measurements of relative positions and magnitude differences for 99
  pairs and 8 measurements for 6 triple systems. 54 entries in the paper
  are new Hipparcos binaries. New triple systems with late-type dwarf
  components, discovered in the course of observations, are HIP 8533 and
  HIP 25354. <P />Based on data collected at the Special Astrophysical
  Observatory, Russia. <P />{Tables 1-3 are only available in electronic
  form at the CDS via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5)
  or via http://cdsweb.u-strasbg.fr/cgi-bin/qcat?/A+A/422/627

---------------------------------------------------------
Title: Mid-infrared sizes of circumstellar disks around Herbig Ae/Be
    stars measured with MIDI on the VLTI
Authors: Leinert, Ch.; van Boekel, R.; Waters, L. B. F. M.; Chesneau,
   O.; Malbet, F.; Köhler, R.; Jaffe, W.; Ratzka, Th.; Dutrey, A.;
   Preibisch, Th.; Graser, U.; Bakker, E.; Chagnon, G.; Cotton, W. D.;
   Dominik, C.; Dullemond, C. P.; Glazenborg-Kluttig, A. W.; Glindemann,
   A.; Henning, Th.; Hofmann, K. -H.; de Jong, J.; Lenzen, R.; Ligori, S.;
   Lopez, B.; Meisner, J.; Morel, S.; Paresce, F.; Pel, J. -W.; Percheron,
   I.; Perrin, G.; Przygodda, F.; Richichi, A.; Schöller, M.; Schuller,
   P.; Stecklum, B.; van den Ancker, M. E.; von der Lühe, O.; Weigelt, G.
2004A&A...423..537L    Altcode:
  We present the first long baseline mid-infrared interferometric
  observations of the circumstellar disks surrounding Herbig Ae/Be
  stars. The observations were obtained using the mid-infrared
  interferometric instrument MIDI at the European Southern Observatory
  (ESO) Very Large Telescope Interferometer VLTI on Cerro Paranal. The
  102 m baseline given by the telescopes UT1 and UT3 was employed,
  which provides a maximum full spatial resolution of 20 milli-arcsec
  (mas) at a wavelength of 10 μm. The interferometric signal was
  spectrally dispersed at a resolution of 30, giving spectrally
  resolved visibility information from 8 μm to 13.5 μm. We observed
  seven nearby Herbig Ae/Be stars and resolved all objects. The warm
  dust disk of HD 100546 could even be resolved in single-telescope
  imaging. Characteristic dimensions of the emitting regions at 10 μm
  are found to be from 1 AU to 10 AU. The 10 μm sizes of our sample
  stars correlate with the slope of the 10-25 μm infrared spectrum
  in the sense that the reddest objects are the largest ones. Such a
  correlation would be consistent with a different geometry in terms
  of flaring or flat (self-shadowed) disks for sources with strong or
  moderate mid-infrared excess, respectively. We compare the observed
  spectrally resolved visibilities with predictions based on existing
  models of passive centrally irradiated hydrostatic disks made to fit
  the SEDs of the observed stars. We find broad qualitative agreement
  of the spectral shape of visibilities corresponding to these models
  with our observations. Quantitatively, there are discrepancies that
  show the need for a next step in modelling of circumstellar disks,
  satisfying both the spatial constraints such as are now available
  from the MIDI observations and the flux constraints from the SEDs in
  a consistent way. <P />Based on observations made with the Very Large
  Telescope Interferometer at Paranal Observatory.

---------------------------------------------------------
Title: Bipolar outflow on the asymptotic giant branch - the case
    of IRC+10011
Authors: Vinković, Dejan; Blöcker, Thomas; Hofmann, Karl-Heinz;
   Elitzur, Moshe; Weigelt, Gerd
2004MNRAS.352..852V    Altcode: 2004astro.ph..5169V; 2004MNRAS.tmp..153V
  Near-infrared imaging of the asymptotic giant branch (AGB) star
  IRC+10011 (= CIT3) reveals the presence of a bipolar structure within
  the central ~0.1 arcsec of a spherical dusty wind. We show that the
  image asymmetries originate from ~10<SUP>-4</SUP> M<SUB>solar</SUB>
  of swept-up wind material in an elongated cocoon whose expansion
  is driven by bipolar jets. We perform detailed 2D radiative transfer
  calculations with the cocoon modelled as two cones extending to ~1100 au
  within an opening angle of ~30°, embedded in a wind with the standard
  r<SUP>-2</SUP> density profile. The cocoon expansion started &lt;~200
  yr ago, while the total lifetime of the circumstellar shell is ~5500
  yr. Similar bipolar expansion, at various stages of evolution, has
  been recently observed in a number of other AGB stars, culminating in
  jet breakout from the confining spherical wind. The bipolar outflow is
  triggered at a late stage in the evolution of AGB winds, and IRC+10011
  provides its earliest example thus far. These new developments enable
  us to identify the first instance of symmetry breaking in the evolution
  from AGB to planetary nebula.

---------------------------------------------------------
Title: Interferometric observations of the Mira star o Ceti with
    the VLTI/VINCI instrument in the near-infrared
Authors: Woodruff, H. C.; Eberhardt, M.; Driebe, T.; Hofmann, K. -H.;
   Ohnaka, K.; Richichi, A.; Schertl, D.; Schöller, M.; Scholz, M.;
   Weigelt, G.; Wittkowski, M.; Wood, P. R.
2004A&A...421..703W    Altcode: 2004astro.ph..4248W
  We present K-band commissioning observations of the Mira star prototype
  o Cet obtained at the ESO Very Large Telescope Interferometer (VLTI)
  with the VINCI instrument and two siderostats. The observations were
  carried out between 2001 October and December, in 2002 January and
  December, and in 2003 January. Rosseland angular radii are derived
  from the measured visibilities by fitting theoretical visibility
  functions obtained from center-to-limb intensity variations (CLVs)
  of Mira star models \citep{BSW,HSW,TLSW}. Using the derived Rosseland
  angular radii and the SEDs reconstructed from available photometric
  and spectrophotometric data, we find effective temperatures ranging
  from T<SUB>eff</SUB>=3192 ± 200 K at phase Φ=0.13 to 2918 ±
  183 K at Φ=0.26. Comparison of these Rosseland radii, effective
  temperatures, and the shape of the observed visibility functions
  with model predictions suggests that o Cet is a fundamental mode
  pulsator. Furthermore, we investigated the variation of visibility
  function and diameter with phase. The Rosseland angular diameter of
  o Cet increased from 28.9 ± 0.3 mas (corresponding to a Rosseland
  radius of 332 ± 38 R<SUB>⊙</SUB> for a distance of D=107±12 pc) at
  Φ=0.13 to 34.9 ± 0.4 mas (402 ± 46 R<SUB>⊙</SUB>) at Φ=0.4. The
  error of the Rosseland linear radius almost entirely results from the
  error of the parallax, since the error of the angular diameter is only
  approximately 1%. <P />Based on observations collected at the European
  Southern Observatory, Paranal, Chile (public commissioning data). <P
  />Based on data collected at the Special Astrophysical Observatory
  (SAO), Russia.

---------------------------------------------------------
Title: Evidence for Bipolar Jets in Late Stages of AGB Winds
Authors: Vinković, D.; Hofmann, K. -H.; Elitzur, M.; Weigelt, G.
2004ASPC..313..321V    Altcode: 2003astro.ph.10012V; 2004apnw.conf..321V
  Bipolar expansion at various stages of evolution has been recently
  observed in a number of AGB stars. The expansion is driven by bipolar
  jets that emerge late in the evolution of AGB winds. The wind traps
  the jets, resulting in an expanding, elongated cocoon. Eventually
  the jets break-out from the confining spherical wind, as recently
  observed in W43A. This source displays the most advanced evolutionary
  stage of jets in AGB winds. The earliest example is IRC+10011, where
  the asymmetry is revealed in high-resolution near-IR imaging. In this
  source the jets turned on only ∼ 200 years ago, while the spherical
  wind is ∼ 4000 years old.

---------------------------------------------------------
Title: LINC-NIRVANA: first attempt of an instrument for a 23-m-class
    telescope
Authors: Gassler, Wolfgang; Herbst, Thomas M.; Ragazzoni, Roberto;
   Andersen, David R.; Arcidiacono, Carmelo; Baumeister, Harald; Beckmann,
   Udo; Bertram, Thomas; Bizenberger, Peter; Bohnhardt, Hermann; Diolaiti,
   Emiliano; Eckart, Andreas; Farinato, Jacopo; Ligori, Sebastiano; Rix,
   Hans-Walter; Rohloff, Ralf-Rainer; Salinari, Piero; Soci, Roberto;
   Straubmeier, Christian; Vernet-Viard, Elise; Weigelt, Gerd; Weiss,
   Robert; Xu, Wenli
2004SPIE.5382..742G    Altcode:
  LINC-NIRVANA is a Fizeau interferometer which will be built for the
  Large Binocular Telescope (LBT). The LBT exists of two 8.4m mirrors
  on one mounting with a distance of 22.8m between the outer edges of
  the two mirrors. The interferometric technique used in LINC-NIRVANA
  provides direct imaging with the resolution of a 23m telescope in one
  direction and 8.4m in the other. The instrument uses multi-conjugated
  adaptive optics (MCAO) to increase the sky coverage and achieve the
  diffraction limit in J, H, K over a moderate Field of View (2 arcmin in
  diameter). During the preliminary design phase the team faced several
  problems similar to those for an instrument at a 23m telescope. We
  will give an overview of the current design, explain problems related
  to 20m class telescopes and present solutions.

---------------------------------------------------------
Title: VizieR Online Data Catalog: Nearby multiple stars speckle
    interferometry (Balega+, 2004)
Authors: Balega, I.; Balega, Y. Y.; Maksimov, A. F.; Pluzhnik, E. A.;
   Schertl, D.; Shkhagosheva, Z. U.; Weigelt, G.
2004yCat..34220627B    Altcode:
  The observations presented here were obtained in October 1999 using
  the new speckle camera developed in 1998. <P />(3 data files).

---------------------------------------------------------
Title: The central dusty torus in the active nucleus of NGC 1068
Authors: Jaffe, W.; Meisenheimer, K.; Röttgering, H. J. A.; Leinert,
   Ch.; Richichi, A.; Chesneau, O.; Fraix-Burnet, D.; Glazenborg-Kluttig,
   A.; Granato, G. -L.; Graser, U.; Heijligers, B.; Köhler, R.; Malbet,
   F.; Miley, G. K.; Paresce, F.; Pel, J. -W.; Perrin, G.; Przygodda,
   F.; Schoeller, M.; Sol, H.; Waters, L. B. F. M.; Weigelt, G.; Woillez,
   J.; de Zeeuw, P. T.
2004Natur.429...47J    Altcode:
  Active galactic nuclei (AGNs) display many energetic phenomena-broad
  emission lines, X-rays, relativistic jets, radio lobes-originating
  from matter falling onto a supermassive black hole. It is widely
  accepted that orientation effects play a major role in explaining
  the observational appearance of AGNs. Seen from certain directions,
  circum-nuclear dust clouds would block our view of the central
  powerhouse. Indirect evidence suggests that the dust clouds form a
  parsec-sized torus-shaped distribution. This explanation, however,
  remains unproved, as even the largest telescopes have not been
  able to resolve the dust structures. Here we report interferometric
  mid-infrared observations that spatially resolve these structures in
  the galaxy NGC 1068. The observations reveal warm (320K) dust in a
  structure 2.1 parsec thick and 3.4 parsec in diameter, surrounding a
  smaller hot structure. As such a configuration of dust clouds would
  collapse in a time much shorter than the active phase of the AGN,
  this observation requires a continual input of kinetic energy to the
  cloud system from a source coexistent with the AGN.

---------------------------------------------------------
Title: VLTI/VINCI observations of the nucleus of NGC 1068 using the
    adaptive optics system MACAO
Authors: Wittkowski, M.; Kervella, P.; Arsenault, R.; Paresce, F.;
   Beckert, T.; Weigelt, G.
2004A&A...418L..39W    Altcode: 2004astro.ph..3497W
  We present the first near-infrared K-band long-baseline interferometric
  measurement of the nucleus of the prototype Seyfert 2 Galaxy NGC
  1068 with resolution λ/B ∼ 10 mas obtained with the Very Large
  Telescope Interferometer (VLTI) and the two 8.2 m diameter Unit
  Telescopes UT 2 and UT 3. The adaptive optics system MACAO (Multi
  Application Curvature Adaptive Optics) was employed to deliver
  wavefront-corrected beams to the K-band commissioning instrument
  VINCI. A squared visibility amplitude of 16.3 ± 4.3% was measured for
  NGC 1068 at a sky-projected baseline length of 45.8 m and azimuth angle
  44.9 deg. This value corresponds to a FWHM of the K-band intensity
  distribution of 5.0 ± 0.5 mas (0.4 ± 0.04 pc at the distance of
  NGC 1068) if it consists of a single Gaussian component. Taking into
  account K-band speckle interferometry observations (Wittkowski et
  al. \cite{wittkowski}; Weinberger et al. \cite{weinberger}; Weigelt et
  al. \cite{weigelt}), we favor a multi-component model for the intensity
  distribution where a part of the flux originates from scales clearly
  smaller than ∼5 mas (⪉0.4 pc), and another part of the flux
  from larger scales. The K-band emission from the small (⪉5 mas)
  scales might arise from substructure of the dusty nuclear torus, or
  directly from the central accretion flow viewed through only moderate
  extinction. <P />Based on public commissioning data released from the
  VLTI (www.eso.org/projects/vlti/instru/vinci/ vinci_data_sets.html).

---------------------------------------------------------
Title: Peering into the heart of a high-mass star forming region:
    Bispectrum speckle interferometry of the ultracompact H II region
    K3-50 A
Authors: Hofmann, K. -H.; Balega, Y. Y.; Preibisch, T.; Weigelt, G.
2004A&A...417..981H    Altcode:
  We present K'-band bispectrum speckle interferometry of the ultracompact
  H II region K3-50A. Our image resolves the central 1”× 1” region
  into at least 7 point-like objects. We find K'-band counterparts
  for all but one of the N-band sources discovered by Okamoto et
  al. (\cite{Okamoto03}), and there are additional K'-band sources which
  were unresolved in the N-band images. Our reconstructed image also
  reveals the fine-structure of the cone-shaped nebulosity extending
  to the south. The brightest K'-band source is located exactly at the
  tip of the cone-shaped nebulosity. The nebula shows several arcs and
  the orientation of its main axis agrees very well with the direction
  of the CO outflow from K3-50A. This nebulosity therefore very likely
  represents the clumpy inner surface of a partially evacuated cavity
  excavated by the strong outflows. <P />Based on observations obtained
  at the Special Astrophysical Observatory with the 6 m telescope.

---------------------------------------------------------
Title: Speckle interferometry of the HAeBe star V376 Cas
Authors: Smith, K. W.; Balega, Y. Y.; Hofmann, K. -H.; Preibisch,
   Th.; Schertl, D.; Weigelt, G.
2004A&A...413..217S    Altcode: 2003astro.ph..9759S
  We report H- and K'-band speckle interferometric observations of the
  HAeBe star V376 Cas. Our observations show that the object is partially
  resolved. The visibility curves suggest three separate components:
  a large scattering envelope visible only in the H band, a component
  approximately 100 mas in radius, and a component with a Gaussian HWHM of
  approximately 8±3 mas, corresponding to approximately 5 AU at 600 pc
  distance, which contributes most of the flux. We compare the smallest
  structure to the radius of dust sublimation in the radiation field of
  the star and find that the radius is approximately six times larger
  than that expected. This may indicate that the inner regions of the
  system are in fact obscured by a flaring circumstellar disk or torus
  seen close to edge-on. <P />Based on observations performed with the
  6 m telescope of the Special Astrophysical Observatory, Russia.

---------------------------------------------------------
Title: Bispectrum speckle interferometry of the massive protostellar
    outflow source AFGL 2591
Authors: Preibisch, T.; Balega, Y. Y.; Schertl, D.; Weigelt, G.
2003A&A...412..735P    Altcode:
  We present bispectrum speckle interferometry of the massive protostellar
  object AFGL 2591 in the near-infrared K-band. Our reconstructed
  image of the outflow cavity of AFGL 2591 has a resolution of 170 mas,
  corresponding to physical scales of ~ 170 AU at the distance of the
  object, and shows the loops which extend from the bright, compact source
  in unprecedented detail. The central source is clearly resolved and
  has an uniform-disk diameter of ~ 40 mas (40 AU). We use 2D radiation
  transfer simulations to show that the resolved structure probably
  corresponds to the inner rim of a geometrically thick circumstellar
  disk or envelope at the dust sublimation radius. Our image also reveals
  a structure that might represent an edge-on circumstellar disk around
  one of the other young stellar objects near AFGL 2591.

---------------------------------------------------------
Title: High-resolution infrared imaging of young outflow-sources
Authors: Preibisch, Thomas; Schertl, Dieter; Weigelt, Gerd
2003Ap&SS.287..179P    Altcode:
  We discuss recent results from near-infrared bispectrum speckle
  interferometry observations of the young outflow sources in the S140 and
  Mon R2 star forming regions. With spatial resolutions down to 0.075”,
  our data represent the highest resolution images obtained so far for
  these objects and exhibit previously unseen complex structures in
  the immediate vicinity of the young stellar objects. We discuss the
  relation of these structures to the jets and outflows.

---------------------------------------------------------
Title: Fundamental parameters and origin of the very eccentric binary
    41 Dra
Authors: Tokovinin, A.; Balega, Y. Y.; Pluzhnik, E. A.; Shatsky,
   N. I.; Gorynya, N. A.; Weigelt, G.
2003A&A...409..245T    Altcode:
  The evolutionary status and origin of the most eccentric known
  binary in a quadruple system, 41 Dra (e=0.9754, period 3.413 yr),
  are discussed. New observations include the much improved combined
  speckle-interferometric orbit, resolved photometry of the components
  and their spectroscopic analysis. The age of the system is 2.5 +/-
  0.2 Gyr; all four components are likely coeval. The high eccentricity
  of the orbit together with known age and masses provide a constraint
  on the tidal circularization theory: it seems that the eccentric
  orbit survived because the convective zones of the F-type dwarfs
  were very thin. Now as the components of 41 Dra are leaving the Main
  Sequence, their increased interaction at each periastron passage
  may result in detectable changes in period and eccentricity. <P
  />Tables 1, 2, and 3 are only available in electronic form at the
  CDS via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5) or via
  http://cdsweb.u-strasbg.fr/cgi-bin/qcat?J/A+A/409/245

---------------------------------------------------------
Title: JHK'-band IOTA interferometry of the circumstellar environment
    of R CrB
Authors: Ohnaka, K.; Beckmann, U.; Berger, J. -P.; Brewer, M. K.;
   Hofmann, K. -H.; Lacasse, M. G.; Malanushenko, V.; Millan-Gabet, R.;
   Monnier, J. D.; Pedretti, E.; Schertl, D.; Schloerb, F. P.; Shenavrin,
   V. I.; Traub, W. A.; Weigelt, G.; Yudin, B. F.
2003A&A...408..553O    Altcode:
  We report the first long-baseline interferometry of the circumstellar
  dust environment of R CrB. The observations were carried out with
  the Infrared Optical Telescope Array (IOTA), using our new JHK' beam
  combiner which enables us to record fringes in the J, H, and K' bands
  simultaneously. The circumstellar dust envelope of R CrB is resolved
  at a baseline of 21 m along a position angle of ~ 170<SUP>deg</SUP>,
  and the visibilities in the J, H, and K' bands are 0.97 +/- 0.06, 0.78
  +/- 0.06, and 0.61 +/- 0.03, respectively. These observed visibilities,
  together with the K'-band visibility obtained by speckle interferometry
  with baselines of up to 6 m, and the spectral energy distribution
  are compared with predictions from spherical dust shell models which
  consist of the central star and an optically thin dust shell. The
  comparison reveals that the observed J- and H-band visibilities are in
  agreement with those predicted by these models, and the inner radius
  and inner boundary temperature of the dust shell were derived to be
  60-80 R<SUB>star </SUB> and 950-1050 K, respectively. However, the
  predicted K'-band visibilities are found to be ~ 10% smaller than the
  one obtained with IOTA. Given the simplifications adopted in our models
  and the complex nature of the object, this can nevertheless be regarded
  as rough agreement. As a hypothesis to explain this small discrepancy,
  we propose that there might be a group of newly formed dust clouds,
  which may appear as a third visibility component.

---------------------------------------------------------
Title: Diffraction-limited Bispectrum Speckle Interferometry
Authors: Weigelt, Gerd; Hofmann, Karl-Heinz; Preibisch, Thomas;
   Balega, Yuri
2003ANS...324...68W    Altcode: 2003ANS...324b..68W; 2003ANS...324..P40W
  No abstract at ADS

---------------------------------------------------------
Title: Bispectrum Speckle Interferometry
Authors: Weigelt, G.; Blöcker, T.; Hofmann, K. -H.; Men'shchikov,
   A.; Winters, J. M.
2003ANS...324Q..66W    Altcode: 2003ANS...324..P37W; 2003ANS...324b..66W
  No abstract at ADS

---------------------------------------------------------
Title: High-Resolution Near-Infrared Speckle Interferometry and
    Radiative Transfer Modeling of the OH/IR Star OH104.9+2.4
Authors: Riechers, Dominik; Berger, Michael; Balega, Yuri; Driebe,
   Thomas; Hofmann, Karl-Heinz; Weigelt, Gerd
2003ANS...324..136R    Altcode: 2003ANS...324..P50R; 2003ANS...324c.136R
  No abstract at ADS

---------------------------------------------------------
Title: VINCI VLTI Interferometry of Mira Stars
Authors: Eberhardt, Maren; Woodruff, Henry C.; Driebe, T.; Hofmann,
   K. -H.; Scholler, M.; Scholz, M.; Weigelt, G.; Wittkowski, M.
2003ANS...324..136E    Altcode: 2003ANS...324..P51E; 2003ANS...324c.136E
  No abstract at ADS

---------------------------------------------------------
Title: Spectro-interferometry of the Mira Star T Cep with the IOTA
    Interferometer and Comparison with Models
Authors: Weigelt, G.; Beckmann, U.; Blöcker, T.; Hofmann, K. -H.;
   Ohnaka, K.; Schertl, D.; Brewer, M. K.; Schloerb, F.; Efimov, Y. N.;
   Shenavrin, V.; Yudin, B.; Berger, J.; Lacasse, M.; Millan-Gabet, R.;
   Monnier, J.; Morel, S.; Pedretti, E.; Traub, W.; Malanushenko, V.;
   Mennesson, B.; Scholz, M.
2003ANS...324...71W    Altcode: 2003ANS...324..P47W; 2003ANS...324b..71W
  No abstract at ADS

---------------------------------------------------------
Title: VizieR Online Data Catalog: ADS 11061 radial velocities
    (Tokovinin+, 2003)
Authors: Tokovinin, A.; Balega, Y. Y.; Pluzhnik, E. A.; Shatsky,
   N. I.; Gorynya, N. A.; Weigelt, G.
2003yCat..34090245T    Altcode:
  Individual radial velocities (heliocentric date, velocity, error),
  interferometric observations and residuals to orbits are given for the
  components of ADS 11061 (HD 166866 and HD 166865) <P />(3 data files).

---------------------------------------------------------
Title: JHK'-Band IOTA Interferometry of the Mira Star T Cep and the
    Circumstellar Environment of R CrB
Authors: Ohnaka, K.; Beckmann, U.; Berger, J. -P.; Brewer, M. K.;
   Hofmann, K. -H.; Lacasse, M. G.; Millan-Gabet, R.; Monnier, J. D.;
   Pedretti, E.; Schertl, D.; Schloerb, F. P.; Scholz, M.; Traub, W. A.;
   Weigelt, G.
2003ANS...324...61O    Altcode: 2003ANS...324c..61O; 2003ANS...324..H03O
  No abstract at ADS

---------------------------------------------------------
Title: Bi-spectrum Speckle Inter-ferometry of Young Jet- and
    Outflow-sources
Authors: Preibisch, Thomas; Schertl, Dieter; Weigelt, Gerd; Balega,
   Yuri
2003ANS...324Q..16P    Altcode: 2003ANS...324..C02P; 2003ANS...324b..16P
  No abstract at ADS

---------------------------------------------------------
Title: Bispectrum Speckle Interferometry of the B[e] Star MWC349A
Authors: Hofmann, K. -H.; Ikhsanov, N. R.; Weigelt, G.; Miroshnichenko,
   A. S.
2003ANS...324Q..69H    Altcode: 2003ANS...324Q.P42H; 2003ANS...324b..69H
  No abstract at ADS

---------------------------------------------------------
Title: The Massive Multiple Stars in the Orion Trapezium: Orbital
    Motion, Physical Properties, and Implications on Star Formation
    Scenarios
Authors: Preibisch, Thomas; Balega, Yuri Y.; Schertl, Dieter;
   Weigelt, Gerd
2003ANS...324...41P    Altcode: 2003ANS...324c..41P; 2003ANS...324..E11P
  No abstract at ADS

---------------------------------------------------------
Title: IOTA Observation of the Circum-stellar Envelope of R CrB
Authors: Ohnaka, K.; Beckmann, U.; Hofman, K. -H.; Malanushenko, V.;
   Schertl, D.; Weigelt, G.; Ahearn, A.; Berger, J. -P.; Lacasse, M.;
   Millan-Gabet, R.; Monnier, J.; Traub, W.; Brewer, M.; Schloerb, P.;
   Shenavrin, V.; Yudin, B.
2003ANS...324...66O    Altcode: 2003ANS...324b..66O; 2003ANS...324..P36O
  No abstract at ADS

---------------------------------------------------------
Title: Bispectrum speckle interferometry of the carbon star IRC +10216
Authors: Weigelt, G.; Blöcker, T.; Hofmann, K. -H.; Men'shchikov,
   A.; Winters, J. M.; Balega, Y.
2003ASSL..283..249W    Altcode: 2003mlps.work..249W
  No abstract at ADS

---------------------------------------------------------
Title: Orbital motion of the massive multiple stars in the Orion
    Trapezium
Authors: Schertl, D.; Balega, Y. Y.; Preibisch, Th.; Weigelt, G.
2003A&A...402..267S    Altcode:
  We present bispectrum speckle interferometry of the multiple Orion
  Trapezium stars theta <SUP>1</SUP>Ori A, theta <SUP>1</SUP>Ori B, and
  theta <SUP>1</SUP>Ori C obtained with the SAO 6 m telescope in Russia
  over a period of 5.5 years (epochs 1995-2001). Our diffraction-limited
  images have a resolution lambda /D of 42 mas (J-band), 57 mas (H-band)
  and 76 mas (K-band). We clearly detect motion of the companions relative
  to their primary stars in the systems theta <SUP>1</SUP>Ori A1-2
  (mean separation rho ~ 220 mas, change in position angle Delta PA =
  6degr ), theta <SUP>1</SUP>Ori B2-3 (rho ~ 205 mas, Delta PA = 8degr ),
  and theta <SUP>1</SUP>Ori C1-2 (rho ~ 37 mas, Delta PA = 18degr ). In
  our K-band image of theta <SUP>1</SUP>Ori B we resolve a fourth visual
  component, confirming its discovery by Simon et al. (\cite{Sim99}). We
  determine the J, H, and K magnitudes of the system components and
  estimate the stellar masses of the companions in the HR-diagram. The
  companions theta <SUP>1</SUP>Ori C2 and theta <SUP>1</SUP>Ori B2 show
  clear evidence of near-infrared excess in the color-color diagram. The
  companions theta <SUP>1</SUP>Ori A2 and theta <SUP>1</SUP>Ori B3 show
  much stronger extinction than their primary stars, providing evidence
  of the presence of circumstellar material around the companions.

---------------------------------------------------------
Title: Bispectrum speckle interferometry and future long-baseline
    interferometry of the carbon star IRC+10216
Authors: Bloecker, Thomas; Balega, Yuri; Hofmann, Karl-Heinz;
   Men'shchikov, Alexander B.; Weigelt, Gerd; Winters, Jan-Martin
2003SPIE.4838.1055B    Altcode:
  We present near-infrared (JHK) bispectrum speckle-interferometry
  monitoring of IRC+10216 obtained with the SAO 6m telescope. The
  present speckle observations covering baselines up to 6m provide
  important complementary informations for future long-baseline
  interferometry. To disentangle the apparent motions of the various
  IRC+10216 components and to reveal the location of the central star,
  future high-resolution observations are of utmost value for the
  interpretation of this astrophysical key object. The J-, H-, and
  K-band resolutions of our speckle observations are 50 mas, 56 mas,
  and 73 mas, resp. The K-band observations cover 8 different epochs from
  1995 to 2001 and show the dynamical evolution of the dust shell which
  consists of several compact components within a 200 milli-arcsecond
  radius. Our recent two-dimensional radiative transfer modelling has
  shown that the central star is probably not located at the brightest
  dust-shell component A but at the position of the northern component
  B. The bright and compact component A is the southern lobe of a bipolar
  structure. The changes of the dust-shell structure can be related
  to corresponding changes of the optical depth caused, for instance,
  by mass-loss variations. The present observations are consistent with
  the predictions of hydrodynamical models that enhanced dust formation
  takes place on a timescale of several pulsational cycles.

---------------------------------------------------------
Title: IOTA observation of the circumstellar envelope of R CrB
Authors: Ohnaka, Keiichi; Beckmann, Udo; Berger, Jean-Philippe; Brewer,
   Michael K.; Hofmann, Karl-Heinz; Lacasse, Marc G.; Malanushenko,
   Victor; Millan-Gabet, Rafael; Monnier, John D.; Pedretti, Ettore;
   Schertl, Dieter; Schloerb, F. Peter; Shenavrin, Victor; Traub, Wesley
   A.; Weigelt, Gerd; Yudin, Boris
2003SPIE.4838.1068O    Altcode:
  We report the first long-baseline interferometric observations of
  R CrB. The observations were carried out at the Infrared Optical
  Telescope Array (IOTA), using our new JHK beam combiner which enables
  us to record fringes simultaneously in the J-, H-, and K-bands. The
  circumstellar envelope of R CrB is resolved at a baseline of 21 m,
  and the K-band visibility is derived to be 0.61 +/- 0.03 along a
  position angle of about 170 degrees. The visibility obtained with
  IOTA, as well as speckle visibilities with baselines up to 6 m and the
  spectral energy distribution (SED), are fitted with 2-component models
  consisting of the central star and an optically thin dust shell. The
  K-band visibilities predicted by the models are about 10% smaller than
  the visibility obtained with IOTA. However, given the simplifications
  adopted in our models and the complex nature of the object, this can
  be regarded as rough agreement. As a hypothesis to explain the small
  discrepancy, we propose that there might be a group of newly formed
  dust clouds, which might appear as a third visibility component.

---------------------------------------------------------
Title: Astrophysical potential of the AMBER/VLTI instrument
Authors: Malbet, Fabien; Bloecker, Thomas; Foy, Renaud; Fraix-Burnet,
   Didier; Mathias, Philippe; Marconi, Alesssandro; Monin, Jean-Louis;
   Petrov, Romain G.; Stee, Philippe; Testi, Leonardo; Weigelt, Gerd
2003SPIE.4838..917M    Altcode:
  AMBER is the near-infrared instrument of the Very Large Telescope
  Interferometer (VLTI). With a spectral resolution up to 10000 in the
  1.2-2.4 micron wavelength range, AMBER will offer the possibility to
  combine 3 beams from the VLTI array either 8-m or 1.8m telescopes. The
  instrument has been designed to bring high precision measurement
  and high sensitivity and therefore opens the way to new domain of
  investigation in stellar physics and for the first time access to
  extragalactic sources. We show how the performance of the instrument
  can apply in these different astrophysical fields. We present the
  work of the Science Group and the AMBER consortium who defined precise
  astrophysical goals for the first years of operation.

---------------------------------------------------------
Title: Near-infrared IOTA interferometry of the symbiotic star CH Cyg
Authors: Hofmann, Karl-Heinz; Beckmann, Udo; Berger, Jean-Philippe;
   Bloecker, Thomas; Brewer, Michael T.; Lacasse, Marc G.; Malanushenko,
   Victor; Millan-Gabet, Rafael; Monnier, John D.; Ohnaka, Keiichi;
   Pedretti, Ettore; Schertl, Dieter; Schloerb, F. Peter; Scholz, Michael;
   Traub, Wesley A.; Weigelt, Gerd; Yudin, Boris
2003SPIE.4838.1043H    Altcode:
  We present observations of the symbiotic star CH Cyg with a new
  JHK-band beam combiner mounted to the IOTA interferometer. The new
  beam combiner consists of an anamorphic cylindrical lens system and a
  grism, and allows the simultaneous recording of spectrally dispersed
  J-, H- and K-band Michelson interferograms. The observations of CH
  Cyg were conducted on 5, 6, 8 and 11 June 2001 using baselines of
  17m to 25m. From the interferograms of CH Cyg, J-, H-, and K-band
  visibility functions can be determined. Uniform-disk fits to the
  visibilities give, e.g., stellar diameters of (7.8 +/- 0.6) mas and
  (8.7 +/- 0.8) mas in H and K, respectively. Angular stellar filter
  radii and Rosseland radii are derived from the measured visibilities
  by fitting theoretical center-to-limb intensity variations (CLVs)
  of Mira star models. The available HIPPARCOS parallax of CH Cyg
  allows us to determine linear radii. For example, on the basis of
  the K-band visibility, Rosseland radii in the range of 214 to 243
  solar radii can be derived utilizing CLVs of different fundamental
  mode Mira models as fit functions. These radii agree well within the
  error bars with the corresponding theoretical model Rosseland radii
  of 230 to 282 solar radii. Models of first overtone pulsators are not
  in good agreement with the observations. The wavelength dependence of
  the stellar diameter can be well studied by using visibility ratios
  V(λ<SUB>1</SUB>)/V(λ<SUB>2</SUB>) since ratios of visibilities of
  different spectral channels can be measured with higher precision
  than absolute visibilities. We found that the 2.03 μm uniform disk
  diameter of CH Cyg is approximately 1.1 times larger than the 2.15
  μm and 2.26 μm uniform-disk diameter.

---------------------------------------------------------
Title: Using the near infrared VLTI instrument AMBER
Authors: Petrov, Romain G.; Malbet, Fabien; Weigelt, Gerd; Lisi,
   Franco; Puget, Pascal; Antonelli, Pierre; Beckmann, Udo; Lagarde,
   Stephane; Le Coarer, Etienne; Robbe-Dubois, Sylvie; Duvert, Gilles;
   Gennari, Sandro; Chelli, Alain; Dugue, Michel; Rousselet-Perraut,
   Karine; Vannier, Martin; Mourard, Denis
2003SPIE.4838..924P    Altcode:
  AMBER is the General User near infrared focal instrument of the Very
  Large Telescope Interferometer. Its a single mode, dispersed fringes,
  three telescopes instrument. A limiting magnitude of the order of H=13
  will allow to tackle a fair sample of extra galactic targets. A very
  high accuracy, in particular in color differential phase and closure
  phase modes gives good hope for very high dynamic range observation,
  possibly including hot extra solar planets. The relatively high maximum
  spectral resolution, up to 10000, will allow some stellar activity
  observations. Between this extreme goals, AMBER should have a wide
  range of applications including Young Stellar Objects, Evolved Stars,
  circumstellar material and many others. This paper tries to introduce
  AMBER to its future users with information on what it measures, how
  it is calibrated and hopes to give the readers ideas for applications.

---------------------------------------------------------
Title: Interferometric studies of nearby galactic centers
Authors: Wittkowski, Markus; Duschl, Wolfgang; Hofmann, Karl-Heinz;
   Men'shchikov, Alexander B.; Weigelt, Gerd
2003SPIE.4838.1378W    Altcode:
  We discuss the potential of interferometric studies of nearby galactic
  nuclei with long-baseline interferometric facilities. Information
  on the morphology of galactic centers has so far been limited to
  angular sizes corresponding to the diffraction limit of 6-10 m class
  telescopes. Optical and near-infrared interferometry could in principle
  be used to reach significantly higher angular resolution, but has
  so far only been used for bright objects due to the small collecting
  areas of existing interferometers. Right now, the first interferometers
  consisting of 8-10 m class telescopes are starting operations and,
  hence, will soon allow us for the first time to study galactic centers
  on angular scales which are of an order of magnitude smaller than ever
  before, i.e. on scales corresponding to baselines of up to 100 m. We
  discuss these facilities and report on the observational techniques
  and strategies which are relevant for interferometric observations of
  these objects. We review imaging results of nearby galactic centers
  with highest angular resolution so far, with an emphasis on our
  bispectrum speckle interferometry studies of the core of the Seyfert
  galaxy NGC 1068. Employing these results, we analyze how near-infrared
  interferometry can discriminate between the different scenarios which
  are consistent with our current knowledge based on observations. In
  particular, characteristic sizes of the circumnuclear dusty torus can be
  derived with higher precision, additional dust components and the inner
  part of the jet can be identified, and radiative transfer models of the
  torus can be better constrained. Furthermore, the flux contribution of
  central source components can be separated from those of the torus,
  and thus they can be modeled in more detail. These investigations
  may ultimately result in a refinement of the unification scheme of
  galactic nuclei.

---------------------------------------------------------
Title: New Beam-Combination Techniques at IOTA
Authors: Traub, Wesley A.; Ahearn, Angela; Carleton, Nathaniel P.;
   Berger, Jean-Philippe; Brewer, Michael K.; Hofmann, Karl-Heinz; Kern,
   Pierre Y.; Lacasse, Marc G.; Malbet, Fabien; Millan-Gabet, Rafael;
   Monnier, John D.; Ohnaka, Keiichi; Pedretti, Ettore; Ragland, Sam;
   Schloerb, F. Peter; Souccar, Kamal; Weigelt, Gerd
2003SPIE.4838...45T    Altcode:
  New beam combination techniques, using two and three telescopes, have
  been the focus of activity at IOTA during the past two years since
  our last update. In particular, we have added a third telescope,
  made closure-phase measurements, demonstrated two- and three-beam
  combination with integrated optics combiners, demonstrated two-beam
  combination with an asymmetric coupler, and made simultaneous JHK
  visibility measurements with an image-plane combiner.

---------------------------------------------------------
Title: Bispectrum speckle interferometry and future long-baseline
    interferometry of the young bipolar outflow source S140 IRS1
Authors: Preibisch, Thomas; Balega, Yuri; Schertl, Dieter; Hofmann,
   Karl-Heinz; Weigelt, Gerd
2003SPIE.4838.1047P    Altcode:
  We present bispectrum speckle interferometric observations of the
  deeply embedded protostellar outflow source S140 IRS1. Using the SAO
  6 m telescope, we obtained a K-band image with diffraction-limited
  resolution of 76 mas, which is the highest resolution image of a young
  outflow source ever obtained in the infrared. Our image shows the
  circumstellar environment of S140 IRS1 in unprecedented detail and
  suggests that the central source is marginally resolved with a FWHM
  diameter of approximately 20 mas (approx 20 AU). The dominant feature
  is a bright extended and very clumpy structure pointing away from the
  central source in exactly the same direction as the blue-shifted CO
  outflow lobe. We interprete this feature as the clumpy inner surface of
  a partially evacuated cavity in the circumstellar envelope around IRS1,
  which has been excavated by the strong outflow from IRS1. In addition,
  we find several arc-like structures north-east of IRS 1, extended
  diffuse emission south of IRS 1, and four new point sources. The diffuse
  and fragmentary structures close to IRS 1 appear to trace circumstellar
  material swept up by energetic outflows. In combination with molecular
  line emission maps from the literature, our image provides direct
  confirmation that two distinct bipolar outflow systems continue
  to be driven from IRS 1 on scales between 3" and 100". Our speckle
  observations provide important complementary information for future
  long-baseline interferometric observations, for example with the LBT.

---------------------------------------------------------
Title: JHK-band spectro-interferometry of T Cep with the IOTA
    interferometer
Authors: Weigelt, Gerd; Beckmann, Udo; Berger, Jean-Philippe; Bloecker,
   Thomas; Brewer, Michael K.; Hofmann, Karl-Heinz; Lacasse, Marc G.;
   Malanushenko, Victor; Millan-Gabet, Rafael; Monnier, John D.; Ohnaka,
   Keiichi; Pedretti, Ettore; Schertl, Dieter; Schloerb, F. Peter;
   Scholz, Michael; Traub, Wesley A.; Yudin, Boris
2003SPIE.4838..181W    Altcode:
  Our new IOTA JHK-band beam combiner allows the simultaneous recording
  of spectrally dispersed J-, H- and K-band Michelson interferograms. In
  this paper we present our IOTA observations of the Mira star T Cep
  with this beam combiner (observations in June 2001; four baselines
  in the range of 14 m to 27 m). The beam combiner optics consists
  of an anamorphic cylindrical lens system and a prism. From the
  interferograms of T Cep we derive the visibilities and the J-, H-,
  and K-band uniform-disk diameters of 14.0 +/- 0.6 mas, 13.7 +/- 0.6
  mas and 15.0 +/- 0.6 mas, respectively. Angular stellar filter radii
  and Rosseland radii are derived from the measured visibilities by
  fitting theoretical center-to-limb intensity variations (CLVs) of
  different Mira star models. The available HIPPARCOS parallax (4.76
  +/- 0.75 mas) of T Cep allows us to determine linear radii. For
  example, from the K-band visibility we derive a Rosseland radius
  of 329<SUB>-50</SUB>/<SUP>+70</SUP> solar radii if we use the CLVs
  of the M-models as fit functions. This radius is in good agreement
  with the theoretical M-model Rosseland radius of 315 solar radii. The
  comparison of measured stellar parameters (e.g. diameters, effective
  temperature, visibility shape) with theoretical parameters indicates
  whether any of the models is a fair representation of T Cep. The ratios
  of visibilities of different spectral channels can be measured with
  higher precision than absolute visibilities. Therefore, we use the
  visibility ratios V(λ<SUB>1</SUB>)/V(λ<SUB>2</SUB>) to investigate
  the wavelength dependence of the stellar diameter. We find that the
  2.03 μm uniform-disk diameter of T Cep is about 1.26 times larger
  than the 2.26 μm uniform-disk diameter.

---------------------------------------------------------
Title: Diffraction-Limited Speckle Interferometry and Modeling of
    the Circumstellar Envelope of R CrB at Maximum and Minimum Light
Authors: Ohnaka, K.; Blöcker, T.; Hofmann, K. -H.; Ikhsanov, N. R.;
   Weigelt, G.; Balega, Y.; Shenavrin, V. I.; Yudin, B. F.; Efimov, Y. S.
2003IAUS..209...88O    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Iron abundance in the atmospheres of components of the binary
    system 41 Draconis
Authors: Balega, Yu. Yu.; Leushin, V. V.; Weigelt, G.
2003BSAO...55....5B    Altcode:
  Iron abundances, FeI and FeII lines equivalent widths, and
  microturbulence velocities were found for the components of a highly
  eccentric spectroscopic and interferometric binary system 41 Dra from
  high resolution spectra obtained close to the periastron. Weighted
  mean values of iron abundances in the atmospheres are lgN(Fe) =
  7.66 ± 0.03 and lgN(Fe) = 7.72 ± 0.03 for the component a and b,
  correspondingly. These values are approximately 0.2 dex higher than the
  solar iron abundance. The flux ratio, measured from the depths of FeI
  and FeII lines, E<SUP>b</SUP>/E<SUP>a</SUP> = 0.7, is in agreement with
  the magnitude difference 0.<SUP>m</SUP>41 found recently by speckle
  interferometry. It is supposed that the weaker companion of the binary
  has slightly higher effective temperature.

---------------------------------------------------------
Title: A Multi-Wavelength Study of the Oxygen-Rich AGB Star CIT 3:
    Bispectrum speckle interferometry and dust-shell modelling
Authors: Hofmann, K. -H.; Blöcker, T.; Weigelt, G.; Balega, Y.
2003IAUS..209..121H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Bipolar Structures in the Dust Shell of the AGB Star IRC+10011
Authors: Vinkovíc, D.; Hofmann, K. -H.; Elitzur, M.; Weigelt, G.
2003asdu.confE..64V    Altcode:
  Planetary nebulae are largely asymmetric, while their progenitors,
  AGB winds, are mostly spherically symmetric. This remains one of the
  fundamental problems of planetary nebulae evolution. High-resolution
  J-band imaging of IRC+10011, the prototype of high mass-loss rate AGB
  winds, provides a rare example of shell asymmetry. Interpretation of
  the observed asymmetry requires a 2D radiative transfer solver that can
  handle arbitrary axially symmetric dust density configurations. LELUYA
  (www.leluya.org) is the first such general-purpose code that can provide
  the exact solution to an arbitrary multi-grain dust distribution around
  an arbitrary heating source. By employing a new numerical method, the
  implemented algorithm automatically traces the dust density and optical
  depth gradients, creating the optimal unstructured triangular grid. The
  radiative transfer equation, including dust scattering, absorption and
  emission, is solved without any approximation. Unique to LELUYA is also
  its ability to self-consistently reshape the sublimation/condensation
  dust cavity around the source to accomodate for the unisotropic
  diffuse radiation. We successfully explain the IRC+10011 images and the
  overall spectral energy distribution. Particularly interesting is the
  wavelength dependence of the imaged asymmetry, which disappears within
  a wavelength shift of only 0.5 micron. The asymmetry is produced by an
  unusual dust density distribution, traced by the J-band imaging. Two
  bipolar cones with 1 / r<SUP>0.5</SUP> density profile are imbedded
  in the standard 1/r<SUP>2</SUP> dusty wind profile. The cones are
  still breaking though the 1/r<SUP>2</SUP> wind, suggesting they are
  a recent episode in the final short superwind phase of AGB evolution
  before turning into a proto-planetary nebula.

---------------------------------------------------------
Title: Interpreting the Evolving Clumpy Shell Structure of IRC +
    10216 in Terms of Time Dependent Dust Shell Models
Authors: Winters, J. M.; Blöcker, T.; Hofmann, K. -H.; Weigelt, G.
2003IAUS..209..127W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Spectral Observations of Envelopes around Stars in Late Stages
    of Stellar Evolution
Authors: Blöcker, T.; Hofmann, K. -H.; Weigelt, G.
2003EAS.....6..203B    Altcode: 2002astro.ph..7093B
  Interferometric observations of stars in late stages of stellar
  evolution and the impact of VLTIobservations are discussed. Special
  attention is paid to the spectral information that can be derived from
  these observations and on the corresponding astrophysical interpretation
  of the data by radiative transfer modelling. It is emphasized that for
  the robust and non-ambiguous construction of dust-shell models it is
  essential to take diverse and independent observational constraints into
  account. Apart from matching the spectral energy distribution, the use
  of spatially resolved information plays a crucial role for obtaining
  reliable models. The combination of long-baseline interferometry data
  with high-resolution single-dish data (short baselines), as obtained,
  for example, by bispectrum speckle interferometry, provide complementary
  information and will improve modelling and interpretation.

---------------------------------------------------------
Title: Near-Infrared Monitoring of the Carbon Star IRC + 10216:
    A High Spatial-Resolution Time Sequence of Dust-Shell Evolution
Authors: Weigelt, G.; Blöcker, T.; Hofmann, K. -H.; Men'shchikov,
   A.; Winters, J. M.; Balega, Y.
2003IAUS..209...83W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Speckle interferometer of the 6 m telescope
Authors: Maximov, A. F.; Balega, Yu. Yu.; Beckmann, U.; Weigelt, G.;
   Pluzhnik, E. A.
2003BSAO...56..102M    Altcode:
  A description of the 6 m telescope speckle interferometer is
  presented. Principles of operation and function of basic units are
  briefly considered. Information on the processes of observations and
  primary data reduction is given. Methods of measuring binary star
  parameters and evaluation of the power spectrum and image restoration
  are presented. It is shown that the use of the new device gives us an
  opportunity to reach acquisition rate up to 6 frames per second, and
  to observe objects up to 14<SUP>m</SUP> with a diffraction telescope
  resolution of 0."0.2.

---------------------------------------------------------
Title: High-Resolution Infrared Imaging of Young Outflow-Sources
Authors: Preibisch, Thomas; Schertl, Dieter; Weigelt, Gerd
2003IAUS..221P.126P    Altcode:
  For a better understanding of the mechanisms by which jets and outflows
  from young stellar objects are generated accelerated and collimated it
  is essential to look as close as possible to their launching point at
  the disk/star boundary. High-spatial resolution is therefore of crucial
  importance for further progress in this field. In this contribution
  we present recent results from our near-infrared bispectrum speckle
  interferometry studies of several outflow sources. With a spatial
  resolution of up to 0.055” our images have the highest spatial
  resolution achieved so far for these objects and exhibit previously
  unseen complex structures. Our results include the identification
  of two distinct bipolar outflow systems originating simultaneously
  from the protostar S140 IRS1 the detection of an episodic precessing
  jet from S140 IRS3 and the discovery of a micro-jet from one of the
  embedded sources in Mon R2 IRS3. We will also discuss the relation of
  the observed circumstellar structures to the jets and outflows from
  the young stellar objects

---------------------------------------------------------
Title: Bispectrum speckle interferometry of the B[e] star MWC 349A
Authors: Hofmann, K. -H.; Balega, Y.; Ikhsanov, N. R.; Miroshnichenko,
   A. S.; Weigelt, G.
2002A&A...395..891H    Altcode: 2002astro.ph..9533H
  We present the results of bispectrum speckle interferometry of
  the B[e] star MWC 349A obtained with the SAO 6 m telescope. Our
  diffraction-limited J-, H-, and K-band images (resolutions 43-74
  mas) suggest the star is surrounded by a circumstellar disk seen
  almost edge-on. The observed visibility shape is consistent with
  a two-component elliptical disk model, probably corresponding to
  the gaseous and dusty components of the disk. We show that the
  classification of the object as a pre-main-sequence star or a young
  planetary nebula is problematic. An analysis of the uncertainties in
  the basic parameter determination leads us to the conclusion that
  MWC 349A is probably either a B[e] supergiant or a binary system,
  in which the B[e]-companion dominates the observed properties.

---------------------------------------------------------
Title: The Spectroscopic and Interferometric Orbit of Gliese 150.2
Authors: Balega, Yu. Yu.; Tokovinin, A. A.; Pluzhnik, E. A.;
   Weigelt, G.
2002AstL...28..773B    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: UBVJHKLM photometry and modeling of R Coronae Borealis
Authors: Yudin, B. F.; Fernie, J. D.; Ikhsanov, N. R.; Shenavrin,
   V. I.; Weigelt, G.
2002A&A...394..617Y    Altcode: 2002astro.ph..9531Y
  We present the results of UBVJHKLM photometry of R CrB spanning the
  period from 1976 to 2001. Studies of the optical light curve have
  shown no evidence of any stable harmonics in the variations of the
  stellar emission. In the L band we found semi-regular oscillations
  with the two main periods of ~ 3.3 yr and ~ 11.9 yr and the full
  amplitude of ~ 0fm8 and ~ 0fm6 , respectively. The colors of the warm
  dust shell (resolved by Ohnaka et al. \cite{ohnaka01}) are found to
  be remarkably stable in contrast to its brightness. This indicates
  that the inner radius is a constant, time-independent characteristic
  of the dust shell. The observed behavior of the IR light curve is
  mainly caused by the variation of the optical thickness of the dust
  shell within the interval tau (V)=0.2-0.4. Anticorrelated changes
  of the optical brightness (in particular with P ~ 3.3 yr) have not
  been found. Their absence suggests that the stellar wind of R CrB
  deviates from spherical symmetry. The light curves suggest that the
  stellar wind is variable. The variability of the stellar wind and the
  creation of dust clouds may be caused by some kind of activity on the
  stellar surface. With some time lag, periods of increased mass-loss
  cause an increase in the dust formation rate at the inner boundary of
  the extended dust shell and an increase in its IR brightness. We have
  derived the following parameters of the dust shell (at mean brightness)
  by radiative transfer modeling: inner dust shell radius r<SUB>R
  CrB</SUB>m in ~ 110 R<SUB>*</SUB>, temperature T<SUB>R CrB</SUB>m
  dust(r<SUB>R CrB</SUB>m in) ~ 860 K, dust density R CrBho<SUB>R
  CrB</SUB>m dust(r<SUB>R CrB</SUB>m in) ~ 1.1x 10<SUP>-20</SUP>
  R CrBm g cm<SUP>-3</SUP>, optical depth tau (V) ~ 0.32 at 0.55 mu
  m, mean dust formation rate dot {M}<SUB>R CrB</SUB>m dust ~ 3.1 x
  10<SUP>-9</SUP> M<SUB>sun</SUB> R CrBm yr<SUP>-1</SUP>, mass-loss rate
  dot {M}<SUB>R CrB</SUB>m gas ~ 2.1 x 10<SUP>-7</SUP> M<SUB>sun</SUB>
  R CrBm yr<SUP>-1</SUP>, size of the amorphous carbon grains la 0.01
  mu m, and B-V ~ -0.28. Tables 1 and 2 are only available in electronic
  form at the CDS via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5)
  or via http://cdsweb.u-strasbg.fr/cgi-bin/qcat?J/A+A/394/617

---------------------------------------------------------
Title: Properties of the close binary and circumbinary torus of the
    <ASTROBJ>Red Rectangle</ASTROBJ>
Authors: Men'shchikov, A. B.; Schertl, D.; Tuthill, P. G.; Weigelt,
   G.; Yungelson, L. R.
2002A&A...393..867M    Altcode: 2002astro.ph..6189M
  New diffraction-limited speckle images of the <ASTROBJ>Red
  Rectangle</ASTROBJ> in the wavelength range 2.1-3.3
  mu m with angular resolutions of 44-68 mas (Tuthill et
  al. \cite{Tuthill_etal2002}) and previous speckle images at 0.7-2.2
  mu m (Osterbart et al. \cite{Osterbart_etal1997}; Men'shchikov
  et al. \cite{Men'shchikov_etal1998}) revealed well-resolved bright
  bipolar outflow lobes and long X-shaped spikes originating deep inside
  the outflow cavities. This set of high-resolution images stimulated
  us to reanalyze all infrared observations of the <ASTROBJ>Red
  Rectangle</ASTROBJ> using our two-dimensional radiative transfer
  code. The high-resolution images imply a geometrically and optically
  thick torus-like density distribution with bipolar conical cavities
  and are inconsistent with the flat disk geometry frequently used
  to visualize bipolar nebulae. The new detailed modeling, together
  with estimates of the interstellar extinction in the direction of
  the <ASTROBJ>Red Rectangle</ASTROBJ> enabled us to more accurately
  determine one of the key parameters, the distance D ~ 710 pc with
  model uncertainties of 70 pc, which is twice as far as the commonly
  used estimate of 330 pc. The central binary is surrounded by a compact,
  massive (M ~ 1.2 M<SUB>sun</SUB>), very dense dusty torus with hydrogen
  densities reaching n<SUB>H</SUB> ~ 2.5 x 10<SUP>12</SUP> cm<SUP>-3</SUP>
  (dust-to-gas mass ratio \rho<SUB>d</SUB>/\rho ~ 0.01). The model
  implies that most of the dust mass in the dense torus is in very
  large particles and, on scales of more than an arcsecond, the polar
  outflow regions are denser than the surrounding medium. The bright
  component of the spectroscopic binary <ASTROBJ>HD 44179</ASTROBJ> is
  a post-AGB star with mass M<SUB>\star</SUB> ~ 0.57 M<SUB>sun</SUB>,
  luminosity L<SUB>\star</SUB> ~ 6000 L<SUB>sun</SUB>, and effective
  temperature T<SUB>\star</SUB> ~ 7750 K. Based on the orbital elements
  of the binary, we identify its invisible component with a helium white
  dwarf with M<SUB>WD</SUB> ~ 0.35 M<SUB>sun</SUB>, L<SUB>WD</SUB> ~ 100
  L<SUB>sun</SUB>, and T<SUB>WD</SUB> ~ 6 x 10<SUP>4</SUP> K. The hot
  white dwarf ionizes the low-density bipolar outflow cavities inside
  the dense torus, producing a small H II region observed at radio
  wavelengths. We propose an evolutionary scenario for the formation
  of the <ASTROBJ>Red Rectangle</ASTROBJ> nebula, in which the binary
  initially had 2.3 and 1.9 M<SUB>sun</SUB> components at a separation
  of ~ 130 R<SUB>sun</SUB>. The nebula was formed in the ejection of a
  common envelope after Roche lobe overflow by the present post-AGB star.

---------------------------------------------------------
Title: VizieR Online Data Catalog: UBVJHKLM photometry of R Corona
    Borealis (Yudin+, 2002)
Authors: Yudin, B. F.; Fernie, J. D.; Ikhsanov, N. R.; Shenavrin,
   V. I.; Weigelt, G.
2002yCat..33940617Y    Altcode:
  We present the results of UBVJHKLM photometry of R CrB spanning the
  period from 1976 to 2001. <P />(2 data files).

---------------------------------------------------------
Title: Multiple Outflows from the Massive Protostar S140 IRS1
Authors: Preibisch, T.; Weigelt, G.; Schertl, D.; Balega, Y. Y.;
   Smith, M. D.
2002ASPC..267..407P    Altcode: 2002hsw..work..407P
  We present a high-resolution near-infrared study of the deeply embedded
  young stellar object S140 IRS1 and its environment.

---------------------------------------------------------
Title: Photometric Observations of R Coronae Borealis in the Optical
    and Infrared
Authors: Shenavrin, V. I.; Fernie, J. D.; Weigelt, G.; Yudin, B. F.
2002ARep...46..805S    Altcode:
  The results of long-term photometric observations of R CrB in the UBV
  JHKLM bands are presented. The temporal and color characteristics of
  the emission of the star itself and of its extended dust envelope
  are analyzed in detail. No stable harmonic has been found in the
  semiregular variations of the optical brightness of R CrB. Two
  harmonics with periods P≈3.3 and 11.3 yrs have been detected in
  the brightness variations of the dust envelope; the minima of these
  variations coincided in 1999, resulting in a record decrease in the
  LM brightness of the envelope. This by chance coincided in time with a
  deep minimum of the visual brightness of the star, resulting in a unique
  decrease in the total brightness of the star and dust envelope. This
  enabled estimation of the bolometric flux of the hot dust clouds,
  which made up only a few per cent of the bolometric flux of the
  dust envelope. The brightness variations of the dust envelope are
  not accompanied by appreciable color changes and are associated with
  variations of its optical depth τ(V) in the range 0.2 0.4. The dust
  envelope forms at a large and fairly constant distance from the star
  , from material in its stellar wind, whose intensity obeys a Reimers
  law. No variations synchronous with those of the optical depth of the
  dust envelope, in particular, with the period P≈3.3 yrs, have been
  found in the optical emission of R CrB, suggesting that the stellar
  wind is not spherically symmetric. The dust envelope consists of small
  grains (a gr≤0.01 µm), while the clouds screening the star from the
  observer are made up of large grains (a gr≈0.1 µm). The activity
  of R CrB, whose nature is unclear, is reflected in variations of the
  stellar-wind intensity and the appearance of dust clouds in the line
  of sight: these variations are repeated by corresponding changes in
  the optical depth of the dust envelope with a delay of ∼4 years
  (the time for a particle moving at V env≈45 km/s to move from the
  star to the boundary of the dust envelope).

---------------------------------------------------------
Title: <ASTROBJ>IRC +10 216</ASTROBJ> in action: Present episode
    of intense mass-loss reconstructed by two-dimensional radiative
    transfer modeling
Authors: Men'shchikov, A. B.; Hofmann, K. -H.; Weigelt, G.
2002A&A...392..921M    Altcode: 2002astro.ph..6410M
  We present two-dimensional (2D) radiative transfer modeling of
  <ASTROBJ>IRC +10 216</ASTROBJ> at selected moments of its evolution
  in 1995-2001, which correspond to three epochs of our series of 8
  near-infrared speckle images (Osterbart et al. \cite{Osterbart_etal2000;
  Weigelt et al. \cite{Weigelt_etal2002}). The high-resolution images
  obtained over the last 5.4 years revealed the dynamic evolution of the
  subarcsecond dusty environment of <ASTROBJ>IRC +10 216</ASTROBJ> and our
  recent time-independent 2D radiative transfer modeling reconstructed its
  physical properties at the single epoch of January 1997 (Men'shchikov
  et al. \cite{Men'shchikov_etal2001}). Having documented the complex
  changes in the innermost bipolar shell of the carbon star, we
  incorporate the evolutionary constraints into our new modeling to
  understand the physical reasons for the observed changes. The new
  calculations show that our previous static model is consistent with
  the brightness variations seen in the near-infrared images, implying
  that during the last 50 years, we have been witnessing an episode of
  a steadily increasing mass loss from the central star, from dot {M} ~
  10<SUP>-5</SUP> M<SUB>sun</SUB> yr<SUP>-1</SUP> to the rate of dot {M}
  ~ 3 x 10<SUP>-4</SUP> M<SUB>sun</SUB> yr<SUP>-1</SUP> in 2001. The
  rapid increase of the mass loss of <ASTROBJ>IRC +10 216</ASTROBJ> and
  continuing time-dependent dust formation and destruction caused the
  observed displacement of the initially faint components C and D and
  of the bright cavity A from the star which has almost disappeared in
  our images in 2001. Increasing dust optical depths are causing strong
  backwarming that leads to higher temperatures in the dust formation
  zone, displacing the latter outward with a velocity v<SUB>T</SUB> ~
  27 km s<SUP>-1</SUP> due to the evaporation of the recently formed
  dust grains. This self-regulated shift of the dust density peak
  in the bipolar shell mimics a rapid radial expansion, whereas the
  actual outflow has probably a lower speed v &lt; v<SUB>infty</SUB>
  ~ 15 km s<SUP>-1</SUP>. The model predicts that the star will remain
  obscured until dot {M} starts to drop back to lower values in the dust
  formation zone; in a few years from that moment, we could be witnessing
  the star reappearing.

---------------------------------------------------------
Title: Diffraction-limited bispectrum speckle interferometry of the
    Herbig Be star R Mon
Authors: Weigelt, G.; Balega, Y. Y.; Hofmann, K. -H.; Preibisch, T.
2002A&A...392..937W    Altcode:
  We explore the structures immediately surrounding the intermediate-mass
  young stellar object R Mon with bispectrum speckle interferometry,
  conventional near-infrared imaging and by analyzing optical HST
  archive data. Our near-infrared speckle images with unprecedented
  diffraction-limited resolution of 55 mas ( ~ 44 AU; H-band) and 76
  mas ( ~ 61 AU; K-band) represent the highest resolution R Mon images
  obtained so far and exhibit previously unseen complex structures. While
  the binary companion R Mon B appears as an unresolved point source
  in our speckle images, the image of the primary R Mon A is marginally
  extended in the K-band and significantly extended in the H-band. The
  most prominent new feature is a bright arc-shaped structure, pointing
  away from R Mon in north-western direction. We interpret this feature as
  the surface of a dense structure near the thick circumstellar disk or
  torus around R Mon. Our images also reveal several twisted filaments
  of helical shape which are similar to the twisted filaments in the
  outer parts of the nebula. We identify structures which probably are
  responsible for casting pronounced shadows in the outer regions of
  the NGC 2261 reflection nebula. Finally, we discuss the relation of
  the observed features, in particular the arc-shaped speckle feature,
  to the wind and outflow activity (Herbig-Haro objects and jets)
  of R Mon. Part of the results presented in this paper are based on
  observations obtained at the German-Spanish Astronomical Centre, Calar
  Alto, operated by the Max-Planck-Institute for Astronomy, Heidelberg,
  jointly with the Spanish National Commission for Astronomy. The speckle
  data were collected at the Special Astrophysical Observatory with the
  6 m telescope.

---------------------------------------------------------
Title: Bispectrum speckle interferometry of <ASTROBJ>IRC
+10216</ASTROBJ>: The dynamic evolution of the innermost circumstellar
    environment from 1995 to 2001
Authors: Weigelt, G.; Balega, Y. Y.; Blöcker, T.; Hofmann, K. -H.;
   Men'shchikov, A. B.; Winters, J. M.
2002A&A...392..131W    Altcode: 2002astro.ph..6309W
  We present new near-infrared (JHK) bispectrum speckle-interferometry
  monitoring of the carbon star <ASTROBJ>IRC+10216</ASTROBJ> obtained
  between 1999 and 2001 with the SAO 6 m telescope. The J-, H-, and K-band
  resolutions are 50 mas, 56 mas, and 73 mas, respectively. The total
  sequence of K-band observations covers now 8 epochs from 1995 to 2001
  and shows the dynamic evolution of the inner dust shell. The present
  observations show that the appearance of the dust shell has considerably
  changed compared to the epochs of 1995 to 1998. Four main components
  within a 0\farcs2 radius can be identified in the K-band images. The
  apparent separation of the two initially brightest components A and B
  increased from ~ 191 mas in 1995 to ~ 351 mas in 2001. Simultaneously,
  component B has been fading and almost disappeared in 2000 whereas the
  initially faint components C and D became brighter (relative to peak
  intensity). The changes of the images can be related to changes of the
  optical depth caused, for instance, by mass-loss variations or new
  dust condensation in the wind. Our recent two-dimensional radiative
  transfer model of <ASTROBJ>IRC +10216</ASTROBJ> suggests that the
  observed relative motion of components A and B is not consistent with
  the outflow of gas and dust at the well-known terminal wind velocity of
  15 km s<SUP>-1</SUP>. The apparent motion with a deprojected velocity
  of 19 km s<SUP>-1</SUP> on average and of recently 27 km s<SUP>-1</SUP>
  appears to be caused by a displacement of the dust density peak due to
  dust evaporation in the optically thicker and hotter environment. The
  present monitoring, covering more than 3 pulsation periods, shows that
  the structural variations are not related to the stellar pulsation
  cycle in a simple way. This is consistent with the predictions of
  hydrodynamical models that enhanced dust formation takes place on a
  timescale of several pulsation periods. The timescale of the fading
  of component B can well be explained by the formation of new dust in
  the circumstellar envelope.

---------------------------------------------------------
Title: High-resolution study of the young stellar objects in Mon R2
    IRS 3
Authors: Preibisch, T.; Balega, Y. Y.; Schertl, D.; Weigelt, G.
2002A&A...392..945P    Altcode:
  We present a bispectrum speckle interferometry study of the embedded
  young stellar objects in Mon R2 IRS 3 in the near-infrared H and
  K bands. Our images with a resolution of 75 mas (cor 62 AU) show a
  close triple system surrounded by strong diffuse nebulosity and three
  additional infrared sources (K magnitudes ~ 11.8-13.7) within 3”
  of the brightest object IRS 3 A (K ~ 7.9). We use HST/NICMOS archive
  images to derive near-infrared photometry for the sources and estimate
  the stellar masses of the three brightest objects IRS 3 A, B, and C to
  be in the range ~ 5-15 M_sun. IRS 3 A is surrounded by a bipolar nebula
  (position angle ~ 30degr ), suggesting it to be embedded in a thick
  circumstellar disk or a torus with polar cavities. IRS 3 B shows a
  remarkable jet-like emission feature pointing towards the north-east
  (position angle 50degr ). This feature consists of at least three
  individual knots with projected separations of 130, 230, and 290 mas
  (110, 190, and 240 AU) from IRS 3 B, which are much brighter in the
  K band than in the H band. This strongly indicates outflow activity
  from IRS 3 B, which is therefore probably the source of the compact
  high velocity molecular outflow reported from Mon R2 IRS 3. We also
  analyze Chandra X-ray archive data for the Mon R2 region and find
  IRS 3 A and IRS 3 C to be sources of hard (3 - 10 keV) and variable
  X-ray emission, suggesting plasma temperatures of at least 50 x
  10<SUP>6</SUP> K. The similarity of the X-ray properties to those of
  Class I protostars suggests magnetic interaction between the protostars
  and their circumstellar disks to be the origin of the X-ray emission;
  this provides indirect evidence for the presence of circumstellar
  disks in the intermediate- to high-mass young stellar objects IRS 3
  A and IRS 3 C.

---------------------------------------------------------
Title: Bispectrum speckle interferometry of the <ASTROBJ>Red
Rectangle</ASTROBJ>: Diffraction-limited near-infrared images
    reconstructed from Keck telescope speckle data
Authors: Tuthill, P. G.; Men'shchikov, A. B.; Schertl, D.; Monnier,
   J. D.; Danchi, W. C.; Weigelt, G.
2002A&A...389..889T    Altcode:
  We present new near-infrared (2.1-3.3 mu m) images of the <ASTROBJ>Red
  Rectangle</ASTROBJ> with unprecedented diffraction-limited angular
  resolutions of 46-68 mas; 4 times higher than that of the Hubble
  space telescope and almost a factor of two improvement over the
  previous 6 m SAO telecope speckle images presented by Men'shchikov
  et al. (\cite{Men'shchikov_etal1998}). The new images, which were
  reconstructed from Keck telescope speckle data using the bispectrum
  speckle interferometry method, clearly show two bright lobes
  above and below the optically thick dark lane obscuring the central
  binary. X-shaped spikes, thought to trace the surface of a biconical
  flow, change the intensity distribution of the bright lobes, making
  them appear broadened or with an east-west double-peak in images
  with the highest resolution. The striking biconical appearance of
  the <ASTROBJ>Red Rectangle</ASTROBJ> is preserved on scales from
  50 mas to 1 arcmin and from the visible (red) to at least 10 mu m,
  implying that large grains of at least several microns in size dominate
  scattering. The new images supplement previous 76 mas resolution speckle
  reconstructions at shorter wavelengths of 0.6-0.8 mu m (Osterbart
  et al. \cite{Osterbart_etal1997}) and 0.7-2.2 mu m (Men'shchikov et
  al. \cite{Men'shchikov_etal1998}), allowing a more detailed analysis
  of the famous bipolar nebula. The intensity distribution of the images
  is inconsistent with a flat disk geometry frequently used to model
  the bipolar nebulae. Instead, a geometrically thick torus-like density
  distribution with bipolar conical cavities is preferred. The extent of
  the bright lobes indicates that the dense torus has a diameter of &gt;~
  100 AU, for an assumed distance of 330 pc. This torus may be the outer
  reaches of a flared thick disk tapering inwards to the central star,
  however such a density enhancement on the midplane is not strictly
  required to explain the narrow dark lane obscuring the central stars.

---------------------------------------------------------
Title: VizieR Online Data Catalog: Speckle interferometry of nearby
    multiple stars (Balega+, 2002)
Authors: Balega, I. I.; Balega, Y. Y.; Hofmann, K. -H.; Maksimov,
   A. F.; Pluzhnik, E. A.; Schertl, D.; Shkhagosheva, Z. U.; Weigelt, G.
2002yCat..33850087B    Altcode:
  We present the results of diffraction-limited optical speckle
  interferometry and infrared bispectrum speckle interferometry of
  111 double and 10 triple systems performed in 1998-1999 with the 6-m
  telescope of the Special Astrophysical Observatory in Zelenchuk. The
  observations concentrated on nearby close binaries discovered during the
  Hipparcos mission. Many nearby fast-orbiting low-mass binaries known
  before Hipparcos were also included in the program. New companions
  were first resolved in 4 systems: HIP 5245, ADS 3179, Kui99, and ADS
  16138. In addition to accurate relative positions, magnitude differences
  were measured for most of the pairs. We combined our results with the
  Hipparcos parallaxes to derive absolute magnitudes and spectral types
  for 63 binaries and 4 triples. Preliminary orbital elements and the
  mass-sum are derived for HIP 689, and improved orbits are presented
  for HIP 16602 (CHR117) and HIP 21280 (CHR17). (3 data files).

---------------------------------------------------------
Title: Speckle interferometry of nearby multiple stars
Authors: Balega, I. I.; Balega, Y. Y.; Hofmann, K. -H.; Maksimov,
   A. F.; Pluzhnik, E. A.; Schertl, D.; Shkhagosheva, Z. U.; Weigelt, G.
2002A&A...385...87B    Altcode:
  We present the results of diffraction-limited optical speckle
  interferometry and infrared bispectrum speckle interferometry of
  111 double and 10 triple systems performed in 1998-1999 with the 6-m
  telescope of the Special Astrophysical Observatory in Zelenchuk. The
  observations concentrated on nearby close binaries discovered during the
  Hipparcos mission. Many nearby fast-orbiting low-mass binaries known
  before Hipparcos were also included in the program. New companions
  were first resolved in 4 systems: HIP 5245, ADS 3179, Kui 99, and
  ADS 16138. In addition to accurate relative positions, magnitude
  differences were measured for most of the pairs. We combined our
  results with the Hipparcos parallaxes to derive absolute magnitudes
  and spectral types for 63 binaries and 4 triples. Preliminary orbital
  elements and the mass-sum are derived for HIP 689, and improved orbits
  are presented for HIP 16602 (CHR 117) and HIP 21280 (CHR 17). Based
  on data collected at the Special Astrophysical Observatory, Russia
  Table 1 is only, and Table 2 also, available in electronic form at
  the CDS via anonymons ftp to cdsarc.u-strasbg.fr (130.79.128.5) or
  via http://cdsweb.u-strasbg.fr/cgi-bin/qcat?J/A+A/385/87

---------------------------------------------------------
Title: The Potential of an Extension of Amber to the Visible
Authors: Petrov, Romain G.; Stee, Philippe; Weigelt, Gerd; Mourard,
   Denis; Vakili, Farrokh; Jankov, Slobodan; Mathias, Philippe; Lagarde,
   Stephane; Robbe-Dubois, Sylvie; Foy, Renaud
2002sdef.conf..320P    Altcode:
  We discuss some of the scientific goals of a visible VLTI instrument. An
  instrument for the ATs only would already represent an important
  progress for the study of stellar physics. It could be a very
  straightforward, and therefore relatively cheap and fast, extension
  of the currently built infrared VLTI instrument AMBER. Accessing to
  the extra galactic programs, like AGN, would require using the UTs
  for fringe tracking and therefore operating the instrument in multi
  speckle mode. GI2T/Regain has indicated one potential solution to
  combine this two problematics.

---------------------------------------------------------
Title: Bispectrum speckle interferometry of IRC +10 216: the dynamic
    evolution of the circumstellar environment from 1995 to 2001.
Authors: Weigelt, G.; Bloecker, T.; Hofmann, K. -H.; Men'shchikov,
   A.; Winters, J. M.; Balega, Y. Y.
2002AGAb...19R..89W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Bispectrum speckle interferometry of young jet- and
    outflow-sources.
Authors: Preibisch, T.; Schertl, D.; Weigelt, G.; Balega, Y.
2002AGAb...19...24P    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Diffraction-limited bispectrum speckle interferometry of the
    Herbig Be star R Mon.
Authors: Weigelt, G.; Hofmann, K. -H.; Preibisch, T.; Balega, Y.
2002AGAb...19Q..91W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Observations of Mira stars with the IOTA/FLUOR interferometer
    and comparison with Mira star models
Authors: Hofmann, K. -H.; Beckmann, U.; Blöcker, T.; Foresto,
   V. Coudé du; Lacasse, M.; Mennesson, B.; Millan-Gabet, R.; Morel, S.;
   Perrin, G.; Pras, B.; Ruilier, C.; Schertl, D.; Schöller, M.; Scholz,
   M.; Shenavrin, V.; Traub, W.; Weigelt, G.; Wittkowski, M.; Yudin, B.
2002NewA....7....9H    Altcode: 2002astro.ph..6406H
  We present K'-band observations of five Mira stars with the IOTA
  interferometer. The interferograms were obtained with the FLUOR
  fiber optics beam combiner, which provides high-accuracy visibility
  measurements in spite of time-variable atmospheric conditions. For the
  M-type Miras X Oph, R Aql, RU Her, R Ser, and the C-type Mira V CrB we
  derived the uniform-disk diameters 11.7 mas, 10.9 mas, 8.4 mas, 8.1
  mas, and 7.9 mas (±0.3 mas), respectively. Simultaneous photometric
  observations yielded the bolometric fluxes. The derived angular
  Rosseland radii and the bolometric fluxes allowed the determination of
  effective temperatures. For instance, the effective temperature of R
  Aql was determined to be 2970 ±110 K. A linear Rosseland radius for R
  Aql of 250 <SUP>+100</SUP><SUB>-60</SUB> R <SUB>⊙</SUB> was derived
  from the angular Rosseland radius of 5.5±0.2 mas and the HIPPARCOS
  parallax of 4.73±1.19 mas. The observations were compared with
  theoretical Mira star models of Bessel et al. [A&amp;A 307 (1996) 481]
  and Hofmann et al. [A&amp;A 339 (1998) 846]. The effective temperatures
  of the M-type Miras and the linear radius of R Aql indicate fundamental
  mode pulsation.

---------------------------------------------------------
Title: Spectro-interferometry of the Mira star T Cep with the IOTA
    interferometer and comparison with models.
Authors: Weigelt, G.; Beckmann, U.; Bloecker, T.; Hofmann, K. -H.;
   Ohnaka, K.; Schertl, D.; Brewer, M. K.; Schloerb, F.; Efimov, Y. N.;
   Shenavrin, V.; Yudin, B.; Berger, J.; Lacasse, M.; Millan-Gabet, R.;
   Monnier, J.; Morel, S.; Pedretti, E.; Traub, W.; Malanushenko, V.;
   Mennesson, B.; Scholz, M.
2002AGAb...19R..94W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Bispectrum speckle interferometry of the massive protostellar
object S140 IRS 1: Evidence for multiple outflows
Authors: Weigelt, G.; Balega, Y. Y.; Preibisch, T.; Schertl, D.;
   Smith, M. D.
2002A&A...381..905W    Altcode:
  Bispectrum speckle interferometry is employed to explore the immediate
  environment of the deeply embedded young stellar object S140 IRS 1. A
  K'-band (2.0-2.3 mu m) diffraction-limited resolution of 76 mas ( ~
  70 AU) is achieved with the SAO 6 m telescope, as well as a dynamical
  range of more than 8 mag and a field of view of 13” x 21”. Our image
  exhibits many previously unseen complex structures. In addition to the
  bright, elongated, and very clumpy feature pointing from the central
  source to the south-east, which was already discussed in a previous
  paper (Schertl et al. \cite{Schertl00}), we find several arc-like
  structures north-east of IRS 1, extended diffuse emission south of IRS
  1, and four new point sources. The diffuse and fragmentary structures
  close to IRS 1 appear to trace circumstellar material swept up by
  energetic outflows. In combination with molecular line emission maps
  from the literature, our image provides direct confirmation that two
  distinct bipolar outflow systems continue to be driven from IRS 1 on
  scales between 3\arcsec and 100\arcsec. A system of three arc-like
  structures to the north-east is consistent with cavities excavated by
  a precessing jet or wind-driven outflow. We discuss the implications
  for the nature of the central source. Based based on observations
  obtained at the Special Astrophysical Observatory with the 6 m telecope.

---------------------------------------------------------
Title: Near-infrared IOTA interferometry of the symbiotic star CH Cyg.
Authors: Hofmann, K. -H.; Beckmann, U.; Bloecker, T.; Ohnaka, K.;
   Schertl, D.; Weigelt, G.; Brewer, M. K.; Schloerb, F.; Efimov, Y. N.;
   Shenavrin, V.; Yudin, B.; Berger, J.; Lacasse, M.; Millan-Gabet, R.;
   Monnier, J.; Morel, S.; Pedretti, E.; Traub, W.; Malanushenko, V.;
   Mennesson, B.; Scholz, M.
2002AGAb...19R..91H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: IOTA observation of the circumstellar envelope of R CrB.
Authors: Ohnaka, K.; Beckmann, U.; Malanushenko, V.; Schertl, D.;
   Weigelt, G.; Hofmann, K. -H.; Ahearn, A.; Berger, J. -P.; Lacasse,
   M.; Millan-Gabet, R.; Monnier, J.; Traub, W.; Brewer, M.; Schloerb,
   P.; Shenavrin, V.; Yudin, B.
2002AGAb...19Q..89O    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Bispectrum speckle interferometry of the B[e] star MWC 349A.
Authors: Hofmann, K. -H.; Ikhsanov, N. R.; Weigelt, G.; Miroshnichenko,
   A. S.
2002AGAb...19Q..92H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Diffraction-limited speckle interferometry and modeling of
    the circumstellar envelope of R CrB at maximum and minimum light
Authors: Ohnaka, K.; Balega, Y.; Blöcker, T.; Efimov, Y. S.; Hofmann,
   K. -H.; Ikhsanov, N. R.; Shenavrin, V. I.; Weigelt, G.; Yudin, B. F.
2001A&A...380..212O    Altcode: 2002astro.ph..1049O
  We present the first speckle interferometric observations of <ASTROBJ>R
  CrB</ASTROBJ>, the prototype of a class of peculiar stars which undergo
  irregular declines in their visible light curves. The observations
  were carried out with the 6 m telescope at the Special Astrophysical
  Observatory near maximum light (V=7, 1996 Oct. 1) and at minimum light
  (V=10.61, 1999 Sep. 28). A spatial resolution of 75 mas was achieved
  in the K-band. The dust shell around R CrB is partially resolved,
  and the visibility is approximately 0.8 at a spatial frequency of
  10 cycles/arcsec. The two-dimensional power spectra obtained at
  both epochs do not show any significant deviation from circular
  symmetry. The visibility function and spectral energy distribution
  obtained near maximum light can be simultaneously fitted with a model
  consisting of the central star and an optically thin dust shell with
  density proportional to r<SUP>-2</SUP>. The inner boundary of the
  shell is found to be 82 R<SUB>star </SUB> (19 mas) with a temperature
  of 920 K. However, this simple model fails to simultaneously reproduce
  the visibility and spectral energy distribution obtained at minimum
  light. We show that this discrepancy can be attributed to thermal
  emission from a newly formed dust cloud.

---------------------------------------------------------
Title: Speckle interferometry and radiative transfer modelling of
    the Wolf-Rayet star <ASTROBJ>WR 118</ASTROBJ>
Authors: Yudin, B.; Balega, Y.; Blöcker, T.; Hofmann, K. -H.; Schertl,
   D.; Weigelt, G.
2001A&A...379..229Y    Altcode: 2001astro.ph.10132Y
  <ASTROBJ>WR 118</ASTROBJ> is a highly evolved Wolf-Rayet star of
  the WC10 subtype surrounded by a permanent dust shell absorbing and
  re-emitting in the infrared a considerable fraction of the stellar
  luminosity. We present the first diffraction-limited 2.13 mu m
  speckle interferometric observations of <ASTROBJ>WR 118</ASTROBJ>
  with 73 mas resolution. The speckle interferograms were obtained
  with the 6 m telescope at the Special Astrophysical Observatory. The
  two-dimensional visibility function of the object does not show any
  significant deviation from circular symmetry. The visibility curve
  declines towards the diffraction cut-off frequency to ~ 0.66 and can be
  approximated by a linear function. Radiative transfer calculations have
  been carried out to model the spectral energy distribution, given in the
  range of 0.5-25 mu m, and our 2.13 mu m visibility function, assuming
  spherical symmetry of the dust shell. Both can be fitted with a model
  containing double-sized grains (“small” and “large”) with the radii
  of a = 0.05 mu m and 0.38 mu m, and a mass fraction of the large grains
  greater than 65%. Alternatively, a good match can be obtained with the
  grain size distribution function n(a) ~ a<SUP>-3</SUP>, with a ranging
  between 0.005 mu m and 0.6 mu m. At the inner boundary of the modelled
  dust shell (angular diameter Theta<SUB>in</SUB> = (17 +/- 1) mas),
  the temperature of the smallest grains and the dust shell density are
  1750 K +/- 100 K and (1 +/- 0.2) x 10<SUP>-19</SUP> g/cm<SUP>3</SUP>,
  respectively. The dust formation rate is found to be (1.3 +/- 0.5)
  x 10<SUP>-7</SUP> M<SUB>sun</SUB>/yr, assuming V<SUB>wind</SUB> =
  1200 km s<SUP>-1</SUP>.

---------------------------------------------------------
Title: High-resolution near-infrared study of the deeply embedded
    young stellar object S140 IRS 3
Authors: Preibisch, T.; Balega, Y. Y.; Schertl, D.; Smith, M. D.;
   Weigelt, G.
2001A&A...378..539P    Altcode:
  We explore the structures immediately surrounding the high-mass young
  stellar object S140 IRS 3 within the L1204 molecular cloud. We have
  obtained a bispectrum speckle interferometric K-band image with a
  resolution of 150 mas and a seeing-limited molecular hydrogen line
  emission image of IRS 3. Our speckle image resolves IRS 3 into three
  point sources, a close binary with separation 0.63” and a third
  component 1.3” away. A rough assessment of the system stability
  suggests that the IRS 3 triple system is unstable. Our speckle image
  also reveals extended diffuse emission of very complex morphology
  around IRS 3. An extended diffuse feature north-east of IRS 3 displays
  a remarkable sf S-shaped structure. This feature is the innermost part
  of an at least 15” long extended structure, which is pointing towards
  a bow-shock like patch located 90” away from IRS 3. We find strong H_2
  line emission associated with this feature, suggesting the presence of
  shocks, caused by the collision of outflowing material with the ambient
  medium. The sf S-shaped structure of this feature can be well reproduced
  by a model assuming a precessing outflow from IRS 3a. Furthermore,
  we find several elongated features pointing away from IRS 3 in a
  southern direction. Some of these features also exhibit strong H_2
  line emission, demonstrating that IRS 3 drives outflows in several
  directions. Part of the results presented in this paper are based on
  observations obtained at the German-Spanish Astronomical Centre, Calar
  Alto, operated by the Max-Planck-Institute for Astronomy, Heidelberg,
  jointly with the Spanish National Commission for Astronomy. The speckle
  observations were collected at the Special Astrophysical Observatory
  with the 6 m telecope.

---------------------------------------------------------
Title: A multi-wavelength study of the oxygen-rich AGB star
<ASTROBJ>CIT 3</ASTROBJ>: Bispectrum speckle interferometry and
    dust-shell modelling
Authors: Hofmann, K. -H.; Balega, Y.; Blöcker, T.; Weigelt, G.
2001A&A...379..529H    Altcode: 2001astro.ph.10108H
  CIT 3 is an oxygen-rich long-period variable evolving along the
  Asymptotic Giant Branch and is one of the most extreme infrared AGB
  objects. Due to substantial mass loss it is surrounded by an optically
  thick dust shell which absorbs almost all visible light radiated
  by the star and finally re-emits it in the infrared regime. We
  present the first near infrared bispectrum speckle-interferometry
  observations of CIT 3 in the J-, H-, and K<SUP>'</SUP>-band. The J-,
  H-, and K<SUP>'</SUP>-band resolution is 48 mas, 56 mas, and 73 mas,
  resp. The interferograms were obtained with the Russian 6 m telescope
  at the Special Astrophysical Observatory. While CIT 3 appears almost
  spherically symmetric in the H- and K<SUP>'</SUP>-band it is clearly
  elongated in the J-band along a symmetry axis of position angle
  -28degr . Two structures can be identified: a compact elliptical core
  and a fainter north-western fan-like structure. The eccentricity
  of the elliptical core, given by the ratio of minor to major axis,
  is approximately varepsilon =123 mas/154 mas = 0.8. The full opening
  angle of the fan amounts to approximately 40degr . Extensive radiative
  transfer calculations have been carried out and confronted with the
  observations taking into account the spectral energy distribution
  ranging from 1 mu m to 1 mm, our near-infrared visibility functions
  at 1.24 mu m, 1.65 mu m and 2.12 mu m, as well as 11 mu m ISI
  interferometry. The best model found to match the observations refers
  to a cool central star with T<SUB>eff</SUB>=2250 K which is surrounded
  by an optically thick dust shell with tau (0.55 mum ) = 30. The models
  give a central-star diameter of Theta <SUB>*</SUB>=10.9 mas and an
  inner dust shell diameter of Theta <SUB>1</SUB>=71.9 mas being in line
  with lunar occultation observations. The inner rim of the dust-shell
  is located at r<SUB>1</SUB>= 6.6 R<SUB>*</SUB> and has a temperature
  of T<SUB>1</SUB>=900 K. The grain sizes were found to comply with a
  grain-size distribution according to Mathis et al. (\cite{MRN77})
  with n(a) ~ a<SUP>-3.5</SUP>, and 0.005 mu m &lt;= a &lt;= 0.25
  mu m. Uniform outflow models, i.e. density distributions with rho ~
  1/r<SUP>2</SUP>, turned out to underestimate the flux beyond 20 mu m. A
  two-component model existing of an inner uniform-outflow shell region
  (rho ~ 1/r<SUP>2</SUP>) and an outer region where the density declines
  more shallow as rho ~ 1/r<SUP>1.5</SUP> proved to remove this flux
  deficiency and to give the best overall match of the observations. The
  transition between both density distributions is at r<SUB>2</SUB> = 20.5
  r<SUB>1</SUB>= 135.7 R<SUB>*</SUB> where the dust-shell temperature has
  dropped to T<SUB>2</SUB> = 163 K. Provided the outflow velocity kept
  constant, the more shallow density distribution in the outer shell
  indicates that mass-loss has decreased with time in the past of CIT
  3. Adopting v<SUB>exp</SUB>=20 km s<SUP>-1</SUP>, the termination of
  that mass-loss decrease and the begin of the uniform-outflow phase took
  place 87 yr ago. The present-day mass-loss rate can be determined to be
  dot M = (1.3-2.1) x 10<SUP>-5</SUP> M<SUB>sun</SUB>/yr for d=500-800 pc.

---------------------------------------------------------
Title: Multi-wavelength bispectrum speckle interferometry of R Leo
    and comparison with Mira star models
Authors: Hofmann, K. -H.; Balega, Y.; Scholz, M.; Weigelt, G.
2001A&A...376..518H    Altcode:
  We present diffraction-limited (30 mas resolution) bispectrum speckle
  interferometry of the Mira star R Leo with the 6 m SAO telescope. The
  speckle interferograms were recorded through narrow-band interference
  filters with centre wavelength/bandwidth of 673 nm/8 nm (strong TiO
  absorption band), 656 nm/10 nm, 699 nm/6 nm and 781 nm/14 nm (moderate
  TiO absorption), 754 nm/6 nm (weak TiO absorption), and 1045 nm/9 nm
  (continuum). The reconstructed images show that the average uniform-disk
  diameters of R Leo are 60.6 mas +/- 3.0 mas at 656 nm, 75.6 mas +/-
  3.7 mas at 673 nm, 52.5 mas +/- 2.5 mas at 699 nm, 48.7 mas +/- 2.3
  mas at 754 nm, 55.0 mas +/- 2.7 mas at 781 nm, and 37.9 mas +/- 4.0
  mas at 1045 nm. In all six observed wavelength bands the shape of R Leo
  shows no significant asymmetry. We compare our observations with Mira
  star models and check the ability of monochromatic linear diameters
  for discriminating between model representations of the observed
  star. Monochromatic tau <SUB>lambda </SUB>=1 radii were derived from the
  observed visibilities by application of model-predicted center-to-limb
  variations of the intensity. Adopting the HIPPARCOS parallax we derived
  from the 1045 nm-observation a photospheric radius (Rosseland tau_Ross
  =1 radius) of R Leo of 417 R<SUB>sun</SUB> +/- 97 R<SUB>sun</SUB>
  (19.2 mas +/- 2.0 mas) indicating pulsation in the first-overtone
  mode. From JHKL photometry and the angular photospheric radius an
  effective temperature of 2590 +/- 180 K at near maximum phase was
  obtained. Based on observations collected at the SAO 6 m telescope
  in Russia.

---------------------------------------------------------
Title: AGB and Post-AGB Evolution: Structural and Chemical Changes
Authors: Blöcker, T.; Osterbart, R.; Weigelt, G.; Balega, Y.;
   Men'shchikov, A.
2001ASSL..265..241B    Altcode: 2001astro.ph..2383B; 2001pao..conf..241B
  Structural and chemical changes during the AGB and post-AGB evolution
  are discussed with respect to two recent observational and theoretical
  findings. On the one hand, high-resolution infrared observations
  revealed details of the dynamical evolution of the fragmented,
  bipolar dust shell around the far-evolved carbon star IRC+10216
  giving evidence for rapid changes of an already PPN-like structure
  during the very end of the AGB evolution. On the other hand, stellar
  evolution calculations considering convective overshoot have shown
  how thermal pulses during the post-AGB stage lead to the formation of
  hydrogen-deficient post-AGB stars with abundance patterns consistent
  with those observed for Wolf-Rayet central stars.

---------------------------------------------------------
Title: Structure and properties of IRC+10216
Authors: Men'shchikov, Alexander B.; Balega, Yuri Yu.; Blöcker,
   Thomas; Osterbart, Roger; Weigelt, Gerd
2001ASSL..265..343M    Altcode: 2001pao..conf..343M
  We present selected results of the first detailed, two-dimensional
  radiative transfer modeling of the dusty envelope around the carbon
  star IRC+10216. The model reproduces very well the entire beam-matched
  spectral energy distribution of IRC+10216 from optical to centimeter
  wavelengths (at several phases of stellar luminosity), observed
  intensity profiles of the object at 1.25, 2.2, 10.5, 50, 100 microns,
  and 1.3 mm, a 10.5 micron lunar occultation intensity profile, our
  high-resolution J, H, K, and H-K bispectrum speckle-interferometry
  images, and visibilities in J, H, K, L, M, and N bands. We present a
  new, accurate identification of the carriers of the well-known 11.3
  micron and 30 micron dust features in the spectrum of IRC+10216. The
  dust model found in this study can also be successfully applied
  to some other carbon stars exhibiting broad emission features in
  the 10.3--12.6 micron and 25--37 micron wavelength regions. A firm
  result of our modeling is that the brightest compact near-infrared
  peak observed in IRC+10216 is not the direct light from the underlying
  star. In contrast to previous suggestions, it is the radiation emitted
  and scattered in the optically thinner southern outflow cavity of a
  bipolar dense shell moving away from the central star.

---------------------------------------------------------
Title: The Dust Envelope of R Cas
Authors: Weigelt, G.; Yudin, B. F.
2001ARep...45..510W    Altcode:
  The spectral energy distribution in the far infrared and the
  shape of a broad emission band in the spectrum of R Cas at 9 13
  µm can be reproduced in a model with a dust envelope consisting of
  approximately half amorphous olivine (Mg0.8Fe1.2SiO4) and half amorphous
  aluminum-oxide grains (Al2O3), with a small admixture of spinel grains
  (MgAl2O4). The dust envelope’s optical depth τ(50 µm) is ≈5×10-3
  [τ(1.25 µm)≈0.07 for a gr≈0.05 µm], and its mass within r≤0.025
  pc M dust is ≈8×10-6 M ⊙. The index α in the power-law radial
  dust distribution, n d ∝(R +/r)α, is ≈1.8. Over the last several
  thousand years, the mass-loss rate of R Cas has been decreasing as &amp;
  <P />$dot M(t) ~ t(0.2) <P />; (where time is measured backward from
  the present). This probably implies that R Cas experienced a thermal
  helium flare several thousand years ago. If M gas/M dust≈200 (where
  M gas is the gas mass), the mean mass-loss rate of the star is &amp;
  <P />dot M ≈ 6 × 10({) - 7} M_ ⊙ /yr$ <P />; .

---------------------------------------------------------
Title: Gliese 569B: A Young Multiple Brown Dwarf System?
Authors: Kenworthy, Matthew; Hofmann, Karl-Heinz; Close, Laird; Hinz,
   Phil; Mamajek, Eric; Schertl, Dieter; Weigelt, Gerd; Angel, Roger;
   Balega, Yuri Y.; Hinz, Joannah; Rieke, George
2001ApJ...554L..67K    Altcode: 2001astro.ph..5157K
  The nearby late M star Gliese 569B was recently found by adaptive optics
  imaging to be a double with separation ~1 AU. To explore the orbital
  motion and masses, we have undertaken a high-resolution (~0.05")
  astrometric study. Images were obtained over 1.5 yr with bispectrum
  speckle interferometry at the 6.5 m Multiple Mirror Telescope (MMT) and
  6 m Special Astrophysical Observatory telescope. Our data show motion
  corresponding to more than half the orbital period and constrain the
  total mass to be greater than 0.115 M<SUB>solar</SUB>, with a most
  probable value of 0.145 M<SUB>solar</SUB>. Higher masses cannot be
  excluded without more extended observations, but from statistical
  analysis we find an 80% probability that the total mass is less than
  0.21 M<SUB>solar</SUB>. An infrared spectrum of the blended B double
  obtained with the MMT has been modeled as a blend of two different
  spectral types, chosen to be consistent with the measured J- and K-band
  brightness difference of a factor of ~2. The blended fit is not nearly
  as good as that to a pure M8.5+ template. Therefore, we hypothesize
  that the brighter component likely has two unresolved components with
  near equal masses, each the same as the fainter component. If Gl 569B
  is a triple, our dynamical limits suggest each component has a mass of
  50<SUP>+23</SUP><SUB>-4</SUB> M<SUB>Jup</SUB>. We infer an age for the
  system of 300 Myr from its kinematic motion, which places it as a member
  of the Ursa Major moving group. All the above parameters are consistent
  with the latest DUSTY evolution models for brown dwarfs. Some of the
  observations reported here were obtained at the MMT Observatory, a joint
  facility of the University of Arizona and the Smithsonian Institution.

---------------------------------------------------------
Title: Infrared Observations of the Star R Cas
Authors: Nadzhip, A. E.; Tatarnikov, A. M.; Shenavrin, V. I.; Weigelt,
   G.; Yudin, B. F.
2001AstL...27..324N    Altcode:
  We present our JHKLM photometry for R Cas performed during
  1988-2000. The pulsation period of R Cas is P = 429.6 days, with the
  maximum IR brightness lagging behind the maximum visual brightness
  by 0.2 P. The amplitude of light variations appreciably decreases
  with increasing wavelength at lambda &lt; 3 micrometers. At lambda
  &gt; 3 micrometers, this decrease virtually ceases. There is a step
  on the ascending branch of IR JHK brightness. The K-L color index
  increases linearly with K magnitude: KL = 0.304 K + 1.20 mag. The
  color temperature dependence, T_{K-L} = f(K), is also linear: T_{K-L}
  = (-622 K + 1100) K. In going from minimum to maximum, the K flux (as
  well as the bolometric flux) from the star and its color temperature
  T_{K-L} increase by a factor of 2.2 and 1.3, respectively.

---------------------------------------------------------
Title: Principle and potential of the near infrared VLTI focal
    instrument AMBER
Authors: Petrov, Romain G.; Malbet, Fabien; Weigelt, Gerd; Lisi,
   Franco; Puget, Pascal; Antonelli, Pierre; Beckman, Udo; Lagarde,
   Stéphane; Le Coarer, Etienne; Robbe-Dubois, Sylvie; Rousselet-Perraut,
   Karine; Martinot-Lagarde, Grégoire; Dugué, Michel
2001sf2a.conf..615P    Altcode:
  AMBER is the first general user near infrared VLTI focal instrument. It
  combines low and middle resolution spectroscopy with some imaging
  capability thanks to the measure of phase closures between three
  telescopes. It is optimized for high accuracy measurements thanks to
  a spatial filtering of each beam using single mode fibers. The poster
  presents AMBER main characteristics, discusses its potential and lists
  some of its scientific programs.

---------------------------------------------------------
Title: Computer simulations of interferometric imaging with the
    Very Large Telescope Interferometer and its Astronomical Multibeam
    Recombiner instrument
Authors: Przygodda, Frank; Bloecker, Thomas; Hofmann, Karl-Heinz;
   Weigelt, Gerd
2001OptEn..40..753P    Altcode: 2001astro.ph..2030P
  We present computer simulations of interferometric imaging with
  the Very Large Telescope Interferometer (VLTI) of the European
  Southern Observatory and the Astronomical Multibeam Recombiner
  (AMBER) phase-closure instrument. These simulations include both
  the astrophysical modeling of a stellar object by radiative-transfer
  calculations and the simulation of light propagation from the object to
  the detector (through atmosphere, telescopes, and the AMBER instrument),
  simulation of photon noise and detector readout noise, and finally data
  processing of the interferograms. The results show the dependence of
  the visibility error bars on the following observational parameters:
  different seeing during the observation of object and reference star
  (Fried parameters r<SUB>0,object</SUB> and r<SUB>0,ref</SUB> ranging
  between 0.9 and 1.2 m), different residual tip-tilt error ((delta)
  <SUB>tt,object</SUB> and (delta) <SUB>tt,ref</SUB> ranging between
  0.1% and 20% of the Airy-disk diameter), and object brightness
  (K<SUB>object</SUB> equals 0.7 to 10.2 mag, K<SUB>ref</SUB> equals
  0.7 mag). As an example, we focus on stars in late stages of stellar
  evolution and study one of the key objects of that kind, the dusty
  super-giant IRC + 10420, which is rapidly evolving on human time
  scales. We show computer simulations of VLT interferometer (visibility
  and phase-closure measurements) of IRC + 10420 with two and three
  auxiliary telescopes (in AMBER wide-field mode, i.e., without fiber
  optic spatial filters) and discuss whether the visibility accuracy
  is sufficient to distinguish between different theoretical model
  predictions.

---------------------------------------------------------
Title: Bispectrum speckle interferometry observations and
    radiative transfer modelling of the red supergiant <ASTROBJ>NML
    Cyg</ASTROBJ>. Multiple dust-shell structures evidencing previous
    superwind phases
Authors: Blöcker, T.; Balega, Y.; Hofmann, K. -H.; Weigelt, G.
2001A&A...369..142B    Altcode: 2001astro.ph..2092B
  <ASTROBJ>NML Cyg</ASTROBJ> is a highly evolved OH/IR supergiant, one
  of the most prominent infrared objects due to its strong obscuration
  by dust, and supposed to be among the most luminous supergiants
  in the galaxy. We present the first diffraction-limited 2.13 mu m
  observations of <ASTROBJ>NML Cyg</ASTROBJ> with 73 mas resolution. The
  speckle interferograms were obtained with the 6 m telescope at the
  Special Astrophysical Observatory, and the image reconstruction is
  based on the bispectrum speckle-interferometry method. The visibility
  function declines towards the diffraction limit to ~ 0.6. Radiative
  transfer calculations have been carried out to model the spectral energy
  distribution, given by ground-based photometry and ISO spectroscopy, and
  our 2.13 mu m visibility function. Additionally, mid-infrared visibility
  functions at 11 mu m were considered. The observed dust shell properties
  do not appear to be in accordance with standard single-shell (uniform
  outflow) models but seem to require multiple components. Considering
  previous periods of enhanced mass-loss, various density enhancements
  in the dust shell were taken into account. An extensive grid of
  models was calculated for different locations and strenghts of such
  superwind regions in the dust shell. To match the observations from
  the optical to the sub-mm domain requires at least two superwind
  regions embedded in the shell. The best model includes a dust shell
  with a temperature of 1000 K at its inner radius of 6.2 R<SUB>*</SUB>,
  a close embedded superwind shell extending from 15.5 R<SUB>*</SUB> to
  21.7 R<SUB>*</SUB> with an amplitude (factor of density enhancement)
  of 10, and a far-out density enhancement at 186 R<SUB>*</SUB> with an
  amplitude of 5. The angular diameters of the central star and of the
  inner rim of the dust shell amount to 16.2 mas and 105 mas, resp. The
  diameter of the embedded close superwind region extends from 263 mas
  to 368 mas, and the inner boundary of the distant superwind region has
  a diameter of 3\farcs 15. In the near-infrared the dust condensation
  zone is limb-brightened leading to a corresponding ring-like intensity
  distribution. The grain sizes, a, were found to be in accordance
  with a standard distribution function, n(a) ~ a<SUP>-3.5</SUP>,
  with a ranging between a_min=0.005 mu m and a_max = 0.15 mu m. The
  bolometric flux amounts to F_bol = 3.63 10<SUP>-9</SUP> Wm<SUP>-2</SUP>
  corresponding to a central-star luminosity of L/L<SUB>sun</SUB> =
  1.13 10<SUP>5</SUP> * (d/kpc)<SUP>2</SUP>. Within the various parts
  of the dust shell, 1/r<SUP>2</SUP> density distributions could be
  maintained differing only in their amplitude A. A slight improvement
  of the far-infrared properties can be obtained if a shallower density
  distribution of rho ~ 1/r<SUP>1.7</SUP> is considered in the distant
  superwind region. The present-day mass-loss rate was determined to be
  dot {M} = 1.2 10<SUP>-4</SUP> M<SUB>sun</SUB>/yr. The inner embedded
  superwind shell corresponds to a phase of enhanced mass-loss (with
  amplitude 10) in the immediate history of <ASTROBJ>NML Cyg</ASTROBJ>
  which began 59 yr ago and lasted for ~ 18 yr. Correspondingly, the outer
  superwind region is due to to a high mass-loss period (amplitude 5)
  which terminated 529 yr ago.

---------------------------------------------------------
Title: Structure and physical properties of the rapidly evolving
    dusty envelope of <ASTROBJ>IRC +10 216</ASTROBJ> reconstructed by
    detailed two-dimensional radiative transfer modeling
Authors: Men'shchikov, A. B.; Balega, Y.; Blöcker, T.; Osterbart,
   R.; Weigelt, G.
2001A&A...368..497M    Altcode:
  We present the first detailed, two-dimensional radiative transfer
  model of the dusty envelope around the carbon star <ASTROBJ>IRC +10
  216</ASTROBJ>. Our goal was to find a self-consistent model of the
  star and its envelope which takes into account as many observational
  constraints as possible. The model reproduces very well the entire
  beam-matched spectral energy distribution of <ASTROBJ>IRC +10
  216</ASTROBJ> from optical to centimeter wavelengths (at several
  phases of stellar luminosity), observed intensity profiles of the
  object at 1.25, 2.2, 10.5, 50, 100 μ m, and 1.3 mm, a 10.5 μ m lunar
  occultation intensity profile, our high-resolution J, H, K, and H -
  K bispectrum speckle-interferometry images, and visibilities in J, H,
  K, L, M, and N bands. For the adopted distance of 130 pc, the model
  of <ASTROBJ>IRC +10 216</ASTROBJ> implies that the object changes
  its luminosity between 13 000 and 5200 L<SUB>sun</SUB>, its effective
  temperature between 2800 and 2500 K, and its radius between 500 and 390
  R<SUB>sun</SUB>. There is a dense non-spherical dust shell around the
  star, with outflow cavities at position angle PA ~ 20°. The southern
  cavity with a full opening angle of 36° is tilted toward us by 40°
  from the plane of sky, causing the observed bipolar appearance of the
  object on a subarcsecond scale. If the envelope's outflow velocity
  of 15 km s<SUP>-1</SUP> applies to the material making up the dense
  core, then just ~ 15 years ago the star was losing mass at a rate of
  9 x; 10<SUP>-5</SUP> M<SUB>sun</SUB> yr<SUP>-1</SUP>. Dust exists in
  the envelope of <ASTROBJ>IRC +10 216</ASTROBJ> everywhere from the
  stellar photosphere up to a distance of 3 pc from the star. The total
  mass of the envelope lost by the central star is 3 M<SUB>sun</SUB>
  and the dust-to-gas mass ratio is 0.004. The total optical depth tau
  <SUB>V</SUB> toward the star in the visual is 40, in the polar cavities
  it is 10. The innermost parts of the envelope are optically thick even
  at 10.7 μ m due to a strong resonance absorption of silicon carbide
  grains at that wavelength. In addition to SiC dust, the model contains
  inhomogeneous grains made of a mixture of SiC and incompletely amorphous
  carbon with thin [Mg<SUB>0.5</SUB>Fe<SUB>0.5</SUB>]S mantles. This
  is the simplest dust mixture required to fit all observations of
  <ASTROBJ>IRC +10 216</ASTROBJ> and to correctly interpret the well-known
  11.3 μ m and 27 μ m emission bands. The dust model found in this
  study can also be successfully applied to many other carbon stars
  exhibiting broad emission features in the 10.3-12.6 μ m and 25-37 μ m
  wavelength regions. An important and firm result of our modeling is that
  the brightest compact peak observed in <ASTROBJ>IRC +10 216</ASTROBJ>
  is not the direct light from the underlying central star. In contrast
  to previous suggestions, the brightest southern component, labeled A
  in our high-resolution near-infrared images \citep{Weigelt_etal1998a,
  Weigelt_etal1998b,Osterbart_etal2000}, is only the radiation emitted
  and scattered in the optically thinner southern cavity of the bipolar
  dense shell moving away from the central star. The carbon star is at
  the position of the fainter component B in our H and K images, which
  is 0\farcs21 away from A along the symmetry axis. Direct stellar light
  (component B) is not seen at all in the Hubble Space Telescope 0.8 μ
  m and 1.1 μ m images, being absorbed by the dense dusty material. The
  even fainter components C and D in the H and K images are probably
  due to smaller deviations of the dense shell from the spherical
  shape. <ASTROBJ>IRC +10 216</ASTROBJ> seems to have entered a phase
  immediately before moving off the asymptotic giant branch and started
  developing asymmetries in its envelope.

---------------------------------------------------------
Title: Infrared Speckle Interferometry of Eleven Binaries Using a
    Bispectral Analysis
Authors: Balega, I. I.; Balega, Yu. Yu.; Hofmann, K. -H.; Weigelt, G.
2001AstL...27...95B    Altcode:
  Infrared speckle-masking observations of eleven binary systems with
  the 6-m Special Astrophysical Observatory telescope are presented. A
  resolution of 43 mas in J (1.25 micrometer) and 76 mas in K (2.2
  micrometers) has been achieved in reconstructed images. Accurate
  magnitude differences, separations, and position angles have been
  determined for all the resolved binaries. The pair HR 1071 with an
  abnormally low lithium abundance is considered in more detail.

---------------------------------------------------------
Title: High-resolution Near-infrared Study of the Deeply Embedded
    Young Stellar Object S140 IRS 3
Authors: Preibisch, Thomas; Schertl, Dieter; Weigelt, Gerd; Balega,
   Yuri Y.; Smith, Michael D.
2001AGM....18..P22P    Altcode: 2001AGAb...18Q.146P
  We explore the structures immediately surrounding the high-mass young
  stellar object S140 IRS 3 within the L1204 molecular cloud. We have
  obtained a bispectrum speckle interferometric K-band image with a
  resolution of 150 mas and a seeing-limited molecular hydrogen line
  emission image of IRS 3. Our speckle image resolves IRS 3 into three
  point sources, a close binary with separation 0.63” and a third
  component 1.3” away. A rough assessment of the system stability
  suggests that the IRS 3 triple system is unstable. Our speckle image
  also reveals extended diffuse emission of very complex morphology
  around IRS 3. An extended diffuse feature north-east of IRS 3 displays
  a remarkable S-shaped structure. This feature is the innermost part of
  an at least 15” long extended structure, which is pointing towards
  a bow-shock like patch located 90” away from IRS 3. We find strong
  H<SUB>2</SUB> line emission associated with this feature, suggesting
  the presence of shocks, caused by the collision of outflowing material
  with the ambient medium. The S-shaped structure of this feature can
  be well reproduced by a model assuming a precessing outflow from IRS
  3a. Furthermore, we find several elongated features pointing away from
  IRS 3 in a southern direction. Some of these features also exhibit
  strong H<SUB>2</SUB> line emission, demonstrating that IRS 3 drives
  outflows in several directions.

---------------------------------------------------------
Title: A Multiwavelength Study of the AGB star CIT 3: Bispectrum
    Speckle Interferometry and Dust-shell Modelling
Authors: Hofmann, K. -H.; Blöcker, T.; Weigelt, G.; Balega, Y. Y.
2001AGM....18..P99H    Altcode: 2001AGAb...18R.184H
  CIT 3 (= WX Psc = IRC +10 011 = IRAS 01037+1219), an oxygen-rich
  long-period variable evolving along the Asymptotic Giant Branch
  (AGB), is one of the most extreme infrared AGB objects. This M9-10
  star suffers currently from mass-loss rates close to 10<SUP>-5</SUP>
  M<SUB>solar</SUB>/yr and is surrounded by an optically thick dust
  shell which absorbs almost all visible light radiated by the star
  and finally re-emits it in the infrared regime. We present the first
  bispectrum speckle-interferometry observations of CIT 3 in the J-, H-,
  and K-band. The resolution is 48 mas, 56 mas, and 73 mas, resp. The
  interferograms were obtained with the Russian 6 m telescope at the
  Special Astrophysical Observatory in September 1999. Detailed radiative
  transfer calculations have been carried out and confronted with the
  observations taking into account the spectral energy distribution
  ranging from 1 μm to 1 mm, our near-infrared visibility functions
  at 1.24 μm, 1.65 μm and 2.12 μm, as well as the recent 11 μm
  interferometric measurements of Lipman et al. (2000).

---------------------------------------------------------
Title: Confronting the Evolving Clumpy Shell Structure of IRC +10216
    with Time Dependent Dust Shell Models
Authors: Winters, J. M.; Blöcker, T.; Hofmann, K. -H.; Weigelt, G.
2001AGM....18..P96W    Altcode: 2001AGAb...18Q.183W
  The prototypical dust enshrouded carbon Mira IRC +10216 is known
  to exhibit intrinsic structural changes on a time scale of the
  order of 10 yr as revealed, e.g., by CO infrared line profiles, its
  infrared light curves, or by high spatial resolution monitoring in
  the infrared. In particular, the light curves obtained over 35 yr
  indicate a possible periodicity on a ≈ 20 yr time scale, which
  suggests that a recurrent phenomenon might lead to the observed
  variations in the CO first overtone line profiles and the clumpy
  spatial structure. Such multi-periodicity time scales, which correspond
  to several (≈ 10) pulsation periods of the star, are predicted by
  consistent hydrodynamical models which include a proper treatment of
  dust formation. In these models discrete dust layers form on a time
  scale which is longer than the typical pulsation period of AGB stars
  (Fleischer et al. 1995). In the high spatial resolution images of IRC
  +10216 (Osterbart et al. 2000) several components can be identified,
  whose structure and brightness evolve considerably within only a few
  years. To shed some light on this evolution, we apply a spherically
  symmetric, time-dependent dust shell model which consistently describes
  the coupled system of hydrodynamics, chemistry, dust formation and
  radiative transfer (Winters et al. 2000) and confront the kinematics
  and brightness variations predicted by this model with the high
  spatial resolution observations of IRC +10216. Fleischer A.J., Gauger
  A., Sedlmayr E., 1995, A&amp;A 297, 543 Osterbart R., Balega Y.Y.,
  Blöcker T., et al., 2000, A&amp;A 357, 169 Winters J.M., Le Bertre T.,
  Jeong K.S., et al., 2000, A&amp;A 361, 641

---------------------------------------------------------
Title: Bispectrum Speckle Interferometry of the Massive Protostellar
Object S140 IRS 1: Evidence for Multiple Outflows
Authors: Weigelt, Gerd; Preibisch, Thomas; Schertl, Dieter; Balega,
   Yuri Y.; Smith, Michael D.
2001AGM....18..P21W    Altcode: 2001AGAb...18R.145W
  Bispectrum speckle interferometry is emplyed to explore
  the deeply embedded young stellar object S140 IRS 1 and its
  environment. Diffraction-limited resolution of 76 mas (~ 70 AU),
  a dynamical range of more than 8 mag, and a field of view of 13” ×
  21” in K'-band images were achieved with the SAO 6 m telescope. Our
  image reveals a wealth of previously unseen complex structures. In
  addition to a bright, elongated, and very clumpy feature pointing
  from the central source to the south-east, we find several arc-like
  structures north-east of IRS 1, extended diffuse emission south of
  IRS 1, and four new point sources. The diffuse structures around IRS 1
  seem to trace the interaction of energetic outflows from IRS 1 with the
  circumstellar material. In combination with molecular line emission maps
  from the literature, our image provides evidence for the presence of two
  distinct bipolar outflow systems. A system of three arc-like structures
  north-east of IRS 1 suggests directional variability of the outflow,
  perhaps caused by the precession of a jet- or wind-driven outflow. We
  discuss the implications for the nature of the central source.

---------------------------------------------------------
Title: Multiplicity of Massive Stars
Authors: Preibisch, Thomas; Weigelt, Gerd; Zinnecker, Hans
2001IAUS..200...69P    Altcode: 2000astro.ph..8014P
  We discuss the observed multiplicity of massive stars and implications
  on theories of massive star formation. After a short summary of the
  literature on massive star multiplicity, we focus on the O- and B-type
  stars in the Orion Nebula Cluster, which constitute a homogenous
  sample of very young massive stars. 13 of these stars have recently
  been the targets of a bispectrum speckle interferometry survey for
  companions. Considering the visual and also the known spectroscopic
  companions of these stars, the total number of companions is at least
  14. Extrapolation with correction for the unresolved systems suggests
  that there are at least 1.5 and perhaps as much as 4 companions per
  primary star on average. This number is clearly higher than the mean
  number of ~0.5 companions per primary star found for the low-mass
  stars in the general field population and also in the Orion Nebula
  cluster. This suggests that a different mechanism is at work in the
  formation of high-mass multiple systems in the dense Orion Nebula
  cluster than for low-mass stars.

---------------------------------------------------------
Title: The Orbit of the Nearby Low-Mass Binary Gliese 600
Authors: Tokovinin, A. A.; Balega, Yu. Yu.; Hofmann, K. -H.;
   Weigelt, G.
2000AstL...26..668T    Altcode:
  We have computed a combined spectroscopic-interferometric orbit for the
  nearby binary Gliese 600 discovered by us. The orbital period is 2.78
  years, and the semimajor axis is 100 mas (0.1"). Its M0V components
  are almost identical and have a mass of 0.5 M_solar. The mass ratio is
  uncertain because of the low radial-velocity semiamplitude (7 km/s)
  associated with the low orbital inclination (37°deg). The orbital
  parallax of the binary (52 +/- 11 mas) matches its dynamical and
  photometric parallaxes but differs significantly from the HIPPARCOS
  parallax (44.3 +/- 1.6 mas); the latter was probably distorted by the
  orbital motion that was not taken into account.

---------------------------------------------------------
Title: Diffraction-limited bispectrum speckle interferometry and
    speckle polarimetry of the young bipolar outflow source S140 IRS1
Authors: Schertl, D.; Balega, Y.; Hannemann, T.; Hofmann, K. -H.;
   Preibisch, Th.; Weigelt, G.
2000A&A...361L..29S    Altcode: 2000astro.ph..9456S
  We present bispectrum speckle interferometry and speckle polarimetry
  of the deeply embedded infrared bipolar outflow source S140 IRS1,
  a massive protostellar object in the L1204 molecular cloud. Using the
  SAO 6 m telescope, we obtained 280 mas resolution polarization maps of
  S140 IRS1 as well as a K-band image with diffraction-limited resolution
  lambda /D of 76 mas, which is the highest angular resolution image of
  a young outflow source ever obtained in the infrared. Our data suggest
  that the central source is marginally resolved with a FWHM diameter
  of approximately 20 mas ( ~ 20 AU). The most remarkable feature in our
  image is a bright extended and very clumpy structure pointing away from
  the central source in exactly the same direction as the blue-shifted
  CO outflow lobe. A centro-symmetric pattern of high polarization in
  this feature suggests that we see scattered light from the central
  source. We interprete this feature as the clumpy inner surface of a
  partially evacuated cavity in the circumstellar envelope around IRS1,
  which has been excavated by the strong outflow from IRS1.

---------------------------------------------------------
Title: Computer simulations of interferometric imaging with the VLT
    Interferometer and the AMBER instrument
Authors: Bloecker, Thomas; Hofmann, Karl-Heinz; Przygodda, Frank;
   Weigelt, Gerd
2000SPIE.4006..174B    Altcode: 2000astro.ph..3474B
  We present computer simulations of interferometric imaging with the
  VLT interferometer and the AMBER instrument. These simulations include
  both the astrophysical modeling of a stellar object by radiative
  transfer calculations and the simulation of light propagation from the
  object to the detector (through atmosphere, telescopes, and the AMBER
  instrument), simulation of photon noise and detector read- out noise,
  and finally data processing of the interferograms. The results show the
  dependence of the visibility error bars on the following observational
  parameters: different seeing during the observation of object and
  reference star (Fried parameters r<SUB>0,object</SUB> equals 2.4 m,
  r<SUB>0,ref.</SUB> equals 2.5 m), different residual tip- tilt error
  ((delta) <SUB>tt,object</SUB> equals 2% of the Airy disk diameter,
  (delta) <SUB>tt,ref.</SUB> equals 0.1%), and object brightness
  (K<SUB>object</SUB> equals 3.5 mag and 11 mag, K<SUB>ref.</SUB> equals
  3.5 mag). Exemplarily, we focus on stars in late stages of stellar
  evolution and study one of its key objects, the dusty supergiant
  IRC + 10420 that is rapidly evolving on human timescales. We show
  computer simulations of VLTI interferometry of IRC + 10420 with two
  ATs (wide-field mode, i.e. without fiber optics spatial filters) and
  discuss whether the visibility accuracy is sufficient to distinguish
  between different theoretical model predictions.

---------------------------------------------------------
Title: GI2T/REGAIN spectro-interferometry with a new infrared beam
    combiner
Authors: Weigelt, Gerd; Mourard, Denis; Abe, Lyu; Beckmann, Udo;
   Chesneau, Olivier; Hillemanns, C.; Hofmann, Karl-Heinz; Ragland,
   Sam D.; Schertl, Dieter; Scholz, Michael; Stee, Philippe; Thureau,
   Nathalie; Vakili, Farrokh
2000SPIE.4006..617W    Altcode: 2000astro.ph..4184W
  We have built an infrared beam combiner for the GI2T/REGAIN
  interferometer of the Observatoire de la Cote d'Azur. The beam
  controller allows us to record spectrally dispersed Michelson
  interference fringes in the near-infrared J-, H- or K-bands. The
  beam combiner has the advantage that Michelson interferograms
  can simultaneously be recorded in about 128 different spectral
  channels. The tilt of the spectrally dispersed fringes is a measure
  of the instantaneous optical path difference. We present the optical
  design of the beam combiner and GI2T/REGAIN observations of the Mira
  star R Cas with this beam combiner in the spectral range of 2.00
  micrometers - 2.18 micrometers (observations on 22 and 25 August 1999;
  variability phase 0.08; V-magnitude approximately 6; seven baselines
  between 12 m and 24 m; reference stars Vega and (beta) Peg).

---------------------------------------------------------
Title: Observations of MIRA stars with the IOTA/FLUOR interferometer
    and comparison with MIRA star models
Authors: Hofmann, Karl-Heinz; Beckmann, Udo; Bloecker, Thomas;
   Coudé du Foresto, Vincent; Lacasse, Marc G.; Millan-Gabet, Rafael;
   Morel, Sebastien; Pras, B.; Ruilier, Cyril; Schertl, Dieter; Scholz,
   Michael; Shenavrin, V.; Traub, Wesley A.; Weigelt, Gerd; Wittkowski,
   M.; Yudin, B.
2000SPIE.4006..688H    Altcode: 2000astro.ph..4013H
  We present K-band observations of five Mira stars with the IOTA
  interferometer. The interferograms were obtained with the FLUOR
  fiber optics beam combiner which provides high- accuracy visibility
  measurements in spite of time-variable atmospheric conditions. For
  the Mira stars X Oph, R Aql, RU Her, R Ser, and V CrB we derived the
  uniform-disk diameters 11.7 mas, 10.9 mas, 8.4 mas, 8.1 mas, and 7.9
  mas (+/- 0.3 mas), respectively. Simultaneous photometric observations
  yielded the bolometric fluxes. The derived angular Rosseland radii
  and the bolometric fluxes allowed the determination of effective
  temperatures. For instance, the effective temperature of R Aql was
  determined to be 3072 K +/- 161 K. A Rosseland radius for R Aql of
  250 R. +/- 63 R. was derived from the angular Rosseland radius of
  5.5 mas +/- 0.2 mas and the HIPPARCOS parallax of 4.73 mas +/- 1.19
  mas. The observations were compared with theoretical Mira star models
  (D/P model Rosseland radius equals 255 R.; measured R Aql Rosseland
  radius equals 250 R. +/- 63 R.).

---------------------------------------------------------
Title: Science opportunities with AMBER, the near-IR VLTI instrument
Authors: Richichi, Andrea; Bloecker, Thomas; Foy, Renaud; Fraix-Burnet,
   Didier; Lopez, Bruno; Malbet, Fabien; Stee, Philippe; von der Luehe,
   Oskar; Weigelt, Gerd
2000SPIE.4006...80R    Altcode:
  AMBER is the near-IR instrument for the VLTI, which will offer the
  possibility of combining two or three beams from either the 8 meter
  VLT main telescopes or the 1.8 meter auxiliary telescopes. With
  spectral dispersion up to 10,000 high visibility accuracy and the
  ability to obtain closure phases, AMBER will offer the means to
  perform high quality interferometric measurements in the 1 - 2.5
  micron range initially, with later extensions to other portions
  of the spectrum. These design characteristics, coupled to the VLT
  interferometer potential, open up the access to investigation of several
  classes of objects, from stellar to extragalactic astronomy. We will
  review the projected performance in terms of sensitivity and angular
  resolution, and illustrate the potential applications in some key
  research areas. In particular, we will present the work of the AMBER
  Science Group, which is evaluating simulated data of source models
  and interferometric outputs for the purpose of defining the criteria
  for observations.

---------------------------------------------------------
Title: Multiplicity of the Massive Stars in the Orion Nebula cluster
    and Implications on their Formation Mechanism
Authors: Preibisch, Th.; Zinnecker, H.; Weigelt, G.; Hofmann, K. -H.;
   Schertl, D.; Balega, Y.
2000ESASP.445..495P    Altcode: 2000sfsl.conf..495P
  No abstract at ADS

---------------------------------------------------------
Title: The dynamical evolution of the fragmented, bipolar dust shell
    around the carbon star IRC +10 216 . Rapid changes of a PPN-like
    structure?
Authors: Osterbart, R.; Balega, Y. Y.; Blöcker, T.; Men'shchikov,
   A. B.; Weigelt, G.
2000A&A...357..169O    Altcode: 2000astro.ph..3328O
  We present high-resolution J-, H-, and K-band observations and the first
  H-K color image of the carbon star <ASTROBJ>IRC +10 216</ASTROBJ>. The
  images were reconstructed from 6 m telescope speckle interferograms
  using the bispectrum speckle interferometry method. The H and K images
  with resolutions between 70 mas and 92 mas consist of several compact
  components within a 0\farcs2 radius and a fainter asymmetric nebula. The
  brightest four components are denoted with A to D in the order of
  decreasing brightness in the 1996 image. A comparison of our images
  from 1995, 1996, 1997, and 1998 gives -- almost like a movie of five
  frames -- insight into the dynamical evolution of the inner nebula. For
  instance, the separation of the two brightest components A and B
  increased from 191 mas in 1995 to 265 mas in 1998. At the same time,
  component B is fading and the components C and D become brighter. The
  X-shaped bipolar structure of the nebula, most prominently present in
  the J-band image, implies an asymmetric mass-loss. Such asymmetries
  are often present in protoplanetary nebulae but are unexpected for AGB
  stars. <ASTROBJ>IRC +10 216</ASTROBJ> is thus likely to be very advanced
  in its AGB evolution, shortly before turning into a protoplanetary
  nebula. The cometary shapes of A in the H and J images and in the 0.79
  mu m and 1.06 mu m HST images suggest that the core of A is not the
  central star, but the southern lobe of a bipolar structure. The position
  of the central star is probably at or near the position of component B,
  where the H-K color has a value of 4.2. If the star is at or near B,
  then the components A, C, and D are likely to be located at the inner
  boundary of the dust shell. Based on observations performed with the
  6~m telecope at the Special Astrophysical Observatory, Russia.

---------------------------------------------------------
Title: Diffraction-limited Bispectrum Speckle Interferometry and
    Speckle Polarimetry of the Young Bipolar Outflow Source S140 IRS1
Authors: Preibisch, Th.; Hannemann, T.; Hofmann, K. -H.; Schertl,
   D.; Weigelt, G.; Balega, Y.
2000AGM....17..P06P    Altcode: 2000AGAb...17Q..52P
  We present bispectrum speckle interferometry and speckle polarimetry
  of the deeply embedded infrared bipolar outflow source S140 IRS1,
  a massive protostellar object in the L1204 molecular cloud. Using the
  SAO 6 m telescope, we obtained 280 mas resolution polarization maps of
  S140 IRS1 as well as a K-band image with diffraction-limited resolution
  λ/D of 76 mas, which is the highest angular resolution image of a
  young outflow source ever obtained in the infrared. Our data suggest
  that the central source is marginally resolved with a FWHM diameter
  of approximately 20 mas (~ 20 AU). The most remarkable feature in our
  image is a bright extended and very clumpy structure pointing away from
  the central source in exactly the same direction as the blue-shifted
  CO outflow lobe. A centro-symmetric pattern of high polarization in
  this feature suggests that we see scattered light from the central
  source. We interprete this feature as the clumpy inner surface of a
  partially evacuated cavity in the circumstellar envelope around IRS1,
  which has been excavated by the strong outflow from IRS1.

---------------------------------------------------------
Title: The VLT Interferometer and its AMBER Instrument: Simulations
    of Interferometric Imaging in the Wide-Field Mode
Authors: Blöcker, T.; Hofmann, K. -H.; Przygodda, F.; Weigelt, G.
2000AGM....17..P18B    Altcode: 2000AGAb...17Q..58B
  We present computer simulations of interferometric imaging with
  the VLT interferometer and the AMBER instrument. These simulations
  include both the astrophysical modelling of a stellar object
  by radiative transfer calculations and the simulation of light
  propagation from the object to the detector (through atmosphere,
  telescopes, and the AMBER instrument), simulation of photon noise
  and detector read-out noise, and finally data processing of the
  interferograms. The results show the dependence of the visibility
  error bars on the following observational parameters: different seeing
  during the observation of object and reference star (Fried parameters
  r<SUB>0,object</SUB> and r<SUB>0,ref.</SUB> ranging between 0.9 m and
  1.2 m), different residual tip-tilt error (δ<SUB>tt,object</SUB>
  and δ<SUB>tt,ref</SUB>. ranging between 0.1% and 20% of the Airy
  disk diameter), and object brightness (K<SUB>object</SUB>=3.5 mag to
  13 mag, K<SUB>ref</SUB>.=3.5 mag). Exemplarily, we focus on stars in
  late stages of stellar evolution and study one of its key objects,
  the dusty supergiant IRC +10 420 that is rapidly evolving on human
  timescales. We show computer simulations of VLT interferometry of IRC
  +10 420 with two ATs (wide-field mode, i.e. without fiber optics spatial
  filters) and discuss whether the visibility accuracy is sufficient to
  distinguish between different theoretical model predictions.

---------------------------------------------------------
Title: Multi-wavelength bispectrum speckle interferometry of R Cas
    and comparison of the observations with Mira star models
Authors: Hofmann, K. -H.; Balega, Y.; Scholz, M.; Weigelt, G.
2000A&A...353.1016H    Altcode:
  We present diffraction-limited (30 mas) bispectrum speckle
  interferometry observations of the Mira star R Cas with the Russian
  6 m SAO telescope. The speckle interferograms were recorded through
  narrow-band interference filters with centre wavelength/bandwidth
  of 671 nm/6 nm and 714 nm/6 nm (strong TiO absorption band), 700
  nm/6 nm (moderate TiO absorption), and 1045 nm/9 nm (continuum). The
  reconstructed images show that the average uniform-disk diameters of
  R Cas are 43.6 mas +/- 2.0 mas at 671 nm, 49.2 mas +/- 2.0 mas at 714
  nm, 37.2 mas +/-2.0 mas at 700 nm, and 29.9 mas +/-3.0 mas at 1045
  nm. In the 671 nm, 714 nm and 700 nm images the disks of R Cas are
  non-uniform and elongated with position angles of the long axis of
  52degr , 57degr and 54degr , and axis ratios of 0.70, 0.76 and 0.87,
  respectively. For example, at 671 nm the size (elliptical uniform disk
  fit) of the elongated R Cas disk is 51.0 mas x 35.6 mas. The 1045 nm
  image shows no significant asymmetry. We compare our observations with
  theoretical Mira star models and systematically check the capacity of
  monochromatic diameter ratios and linear diameters for discriminating
  between model representations of the observed star. Monochromatic tau
  <SUB>lambda </SUB>=1 radii were derived from the observed visibilities
  by application of model-predicted center-to-limb variations of the
  intensity. Adopting the HIPPARCOS parallax we obtained a photospheric
  radius (Rosseland tau_Ross =1 radius) of R Cas of 377 R<SUB>sun</SUB>
  +/- 60 R<SUB>sun</SUB> (32.9 mas +/- 3.3 mas). The derived photospheric
  radius and the large period ( ~ 430 days) suggest first overtone
  pulsation for R Cas. We also determined the effective temperature of
  R Cas at near-minimum phase to 1880 K +/- 130 K and propose T_eff ~
  1900 K for spectral type M10 in the temperature calibration of very
  late M giant spectral classes. Based on observations collected at the
  SAO 6~m telescope in Russia

---------------------------------------------------------
Title: Multiplicity of the young O- and B-type stars in the Orion
    Nebula cluster
Authors: Preibisch, Th.; Hofmann, K. -H.; Schertl, D.; Weigelt, G.;
   Balega, Y.; Balega, I.; Zinnecker, H.
2000IAUS..200P.106P    Altcode:
  We present the results of a bispectrum speckle interferometric
  survey for binaries among the massive stars in the Orion Nebula
  cluster. Observations of 13 bright cluster members of spectral type
  O or B reveal 8 visual companions in total. Using the flux ratios of
  the resolved systems to estimate the masses of the companions, we find
  that the systems generally have mass ratios below 0.5. Extrapolation
  with correction for the unresolved systems suggests that there are
  at least 1.5 companions per primary star on average. This number is
  clearly higher than the corresponding number for low-mass primaries,
  suggesting that a different mechanism is at work in the formation of
  high-mass multiple systems than for low-mass multiple systems.

---------------------------------------------------------
Title: The dynamical evolution of the dust shell of IRC +10 216.
Authors: Osterbart, R.; Balega, Y.; Blocker, T.; Men'shchikov, A.;
   Weigelt, G.
2000MmSAI..71..701O    Altcode: 2000astro.ph..2473O
  We present high-resolution J-, H-, and K-band observations of the carbon
  star IRC+10216. The images were reconstructed from 6 m telescope speckle
  interferograms using the bispectrum speckle interferometry method. The
  H and K images consist of several compact components within a 0.2"
  radius and a fainter asymmetric nebula. The brightest four components
  are denoted with A to D in the order of decreasing brightness. A
  comparison of our images gives - almost like a movie of five frames -
  insight to the dynamical evolution of the inner nebula. For instance,
  the separation of the two brightest components A and B increased by
  almost 40% from 191 mas in 1995 to 265 mas in 1998. At the same time,
  component B is fading and the components C and D become brighter. The
  X-shaped bipolar structure of the nebula implies an asymmetric mass-loss
  suggesting that IRC+10216 is very advanced in its AGB evolution,
  shortly before turning into a protoplanetary nebula. The cometary
  shape of component A suggests that the core of A is not the central
  star, but the southern lobe of a bipolar structure. The position of
  the central star is probably at or near the position of component B.

---------------------------------------------------------
Title: Bispectrum speckle interferometry of the Orion Trapezium stars:
    detection of a close (33 mas) companion of θ<SUP>1</SUP> Ori C
Authors: Balega, Yu. Yu.; Weigelt, G.; Preibish, T.; Zinnecker, H.
2000mfcp.proc...68B    Altcode:
  We present bispectrum speckle interferometry observations with
  the SAO 6 m telescope of the four brightest stars in the Orion
  Trapezium. Diffraction-limited images with an unprecedented
  resolution λ/D of 57 mas and 76 mas were obtained in the H- and
  K-band, respectively. The H and K images of θ<SUP>1</SUP> Ori C
  (the star responsible for the proplyds) show for the first time
  that θ<SUP>1</SUP> Ori C is a close binary with a separation of
  only ~ 33 mas (H-band observation). The sub-arcsecond companions of
  θ<SUP>1</SUP> Ori A and θ<SUP>1</SUP> Ori B reported by Petr et
  al. (1998) are confirmed. We use the magnitudes and colors of the
  companions to derive information about their stellar properties from
  the H-R diagram. In addition we briefly discuss the multiplicity of
  the Trapezium stars. Considering both, the visual and spectroscopic
  companions of the 4 Trapezium stars, it has been found that there
  are at least 7 companions, i.e. at least 1.75 companions per primary
  on average. This number is clearly higher than that found for the
  low-mass stars in the Orion Nebula cluster as well as in the field
  population. This suggests that the mechanisms operative in the formation
  of high-mass multiple systems in the dense Trapezium cluster and of
  low-mass stars are different.

---------------------------------------------------------
Title: Observations of Mira Stars with the IOTA/FLUOR Interferometer
    and Comparison with Mira Star Models
Authors: Hofmann, K. -H.; Beckmann, U.; Blöcker, T.; Schertl, D.;
   Weigelt, G.; Wittkowski, M.; Coudé du Foresto, V.; Ruilier, C.;
   Lacasse, M.; Morel, S.; Pras, B.; Traub, W.; Scholz, M.; Shenavrin,
   V.; Yudin, B.
2000AGM....17..P17H    Altcode: 2000AGAb...17R..57H
  We present K-band observations of five Mira stars with the IOTA
  interferometer. The interferograms were obtained with the FLUOR
  fiber optics beam combiner whic h provides high-accuracy visibility
  measurements in spite of time-variable atmosp heric conditions. For
  the Mira stars X Oph, R Aql, RU Her, R Ser, and V CrB we derive d
  the uniform-disk diameters 11.7mas, 10.9mas, 8.4mas, 8.1mas, and
  7.9mas (± 0.3 mas), resp. Simultaneous photometric observations
  yielded the bolometric fluxes. The derived angular Rosseland radii
  and the bolometric fluxes allowed the determination of effective
  temperatures. For instance, the effective temperatur e of R Aql was
  determined to be 3072 K ± 161 K. A Rosseland radius for R Aql o f
  250R<SUB>solar</SUB> ± 63 R<SUB>solar</SUB> was derived from the
  angular Rosseland radius of 5.5 mas ± 0.2 mas and the HIPPARCOS
  parallax of 4.73 mas ± 1.19 mas. The observations were compared
  with theoretical Mira star models of Bessel, Scholz &amp; Wood (1996)
  and Hofmann, Scholz &amp; Wood (1998) (D/P model Rosseland radius =
  255 R<SUB>solar</SUB>).

---------------------------------------------------------
Title: Multiplicity of the massive stars in the Orion Nebula cluster
Authors: Preibisch, Thomas; Balega, Yuri; Hofmann, Karl-Heinz; Weigelt,
   Gerd; Zinnecker, Hans
1999NewA....4..531P    Altcode:
  We present bispectrum speckle interferometry observations of 13
  bright Orion Nebula cluster member stars of spectral type O or
  B. Diffraction-limited images with a resolution λ/ D of 75 mas in
  the K'-band were obtained with the SAO 6 m telescope. In our speckle
  images we find 8 visual companions in total. Using the flux ratios
  of the resolved systems to estimate the masses of the companions,
  we find that the systems generally have mass ratios below 1/2. The
  distribution of mass ratios seems to be consistent with a companion mass
  function similar to the field IMF. Considering both, the visual and
  the spectroscopic companions of the 13 target stars, the total number
  of companions is at least 14. Extrapolation with correction for the
  unresolved systems suggests that there are at least 1.5 companions
  per primary star on average. This number is clearly higher than
  the mean number of ∼0.5 companions per primary star found for the
  low-mass stars in the Orion Nebula cluster as well as in the field
  population. This suggests that a different mechanism is at work in
  the formation of high-mass multiple systems in the dense Orion Nebula
  cluster than for low-mass stars.

---------------------------------------------------------
Title: Parameters of four multiple systems from speckle interferometry
Authors: Balega, I. I.; Balega, Yu. Yu.; Hofmann, K. -H.; Tokovinin,
   A. A.; Weigelt, G. P.
1999AstL...25..797B    Altcode:
  New or refined visual orbital elements are presented for four double
  stars (HR 266 AP, 88 Tau AP = CHARA 18, eta Ori AB = McA18, ADS
  16904 AP = CHARA 149) that are members of multiple systems. Relative
  photometry and positional speckle measurements with the 6-m telescope
  and published radial-velocity data for the stars are used. Photometric
  data and parallaxes from the Hipparcos catalogs are also taken into
  account. New physical models are proposed for multiple systems.

---------------------------------------------------------
Title: The rapidly evolving hypergiant IRC +10 420: High-resolution
    bispectrum speckle-interferometry and dust-shell modelling
Authors: Blöcker, T.; Balega, Y.; Hofmann, K. -H.; Lichtenthäler,
   J.; Osterbart, R.; Weigelt, G.
1999A&A...348..805B    Altcode: 1999astro.ph..6473B
  The hypergiant <ASTROBJ>IRC +10 420</ASTROBJ> is a unique object
  for the study of stellar evolution since it is the only object that
  is believed to be witnessed in its rapid transition from the red
  supergiant stage to the Wolf-Rayet phase. Its effective temperature
  has increased by 1000-2000 K within only 20 yr. We present the first
  speckle observations of <ASTROBJ>IRC +10 420</ASTROBJ> with 73 mas
  resolution. A diffraction-limited 2.11 mu m image was reconstructed from
  6 m telescope speckle data using the bispectrum speckle-interferometry
  method. The visibility function shows that the dust shell contributes ~
  40% to the total flux and the unresolved central object ~ 60%. Radiative
  transfer calculations have been performed to model both the spectral
  energy distribution and visibility function. The grain sizes, a, were
  found to be in accordance with a standard distribution function, n(a)
  ~ a(-3.5) , with a ranging between a_min = 0.005 mu m and a_max =
  0.45 mu m. The observed dust shell properties cannot be fitted by
  single-shell models but seem to require multiple components. At a
  certain distance we considered an enhancement over the assumed 1/r{(x})
  density distribution. The best model for both SED and visibility was
  found for a dust shell with a dust temperature of 1000 K at its inner
  radius of 69 R_{*}. At a distance of 308 R_{*} the density was enhanced
  by a factor of 40 and and its density exponent was changed from x=2 to
  x=1.7. The shell's intensity distribution was found to be ring-like. The
  ring diameter is equal to the inner diameter of the hot shell ( ~ 69
  mas). The diameter of the central star is ~ 1 mas. The assumption of a
  hotter inner shell of 1200 K gives fits of almost comparable quality but
  decreases the spatial extension of both shells' inner boundaries by ~
  30% (with x=1.5 in the outer shell). The two-component model can be
  interpreted in terms of a termination of an enhanced mass-loss phase
  roughly 60 to 90 yr (for d=5 kpc) ago. The bolometric flux, F_bol,
  is 8.17 * 10(-10) Wm(-2) corresponding to a central-star luminosity
  of L/L<SUB>sun</SUB> = 25 462 * (d/kpc)(2) .

---------------------------------------------------------
Title: Bispectrum speckle interferometry of the Orion Trapezium stars:
    detection of a close (33 mas) companion of Theta (1) ORI C
Authors: Weigelt, Gerd; Balega, Yuri; Preibisch, Thomas; Schertl,
   Dieter; Schöller, Markus; Zinnecker, Hans
1999A&A...347L..15W    Altcode: 1999astro.ph..6233W
  We present bispectrum speckle interferometry observations with
  the SAO 6 m telescope of the four brightest stars in the Orion
  Trapezium. Diffraction-limited images with an unprecedented
  resolution lambda /D of 57 mas and 76 mas were obtained in the H-
  and K-band, respectively. The H and K images of Theta (1) Ori C (the
  star responsible for the proplyds) show for the first time that Theta
  (1) Ori C is a close binary with a separation of only ~ 33 mas (H-band
  observation). The sub-arcsecond companions of Theta (1) Ori A and Theta
  (1) Ori B reported by Petr et al. (1998) are confirmed. We use the
  magnitudes and colors of the companions to derive information about
  their stellar properties from the HR-diagram. In addition we briefly
  discuss the multiplicity of the Trapezium stars. Considering both,
  the visual and the spectroscopic companions of the 4 Trapezium stars,
  there are at least 7 companions, i.e. at least 1.75 companions per
  primary on average. This number is clearly higher than that found
  for the low-mass stars in the Orion Nebula cluster as well as in the
  field population. This suggests that a different mechanism is at work
  in the formation of high-mass multiple systems in the dense Trapezium
  cluster than for low-mass stars. Based on data collected at the SAO
  6~m telescope in Russia.

---------------------------------------------------------
Title: High-resolution speckle masking interferometry and radiative
    transfer modeling of the oxygen-rich AGB star AFGL 2290
Authors: Gauger, A.; Balega, Y. Y.; Irrgang, P.; Osterbart, R.;
   Weigelt, G.
1999A&A...346..505G    Altcode: 1999astro.ph..4218G
  We present the first diffraction-limited speckle masking observations
  of the oxygen-rich AGB star <ASTROBJ>AFGL 2290</ASTROBJ>. The speckle
  interferograms were recorded with the Russian 6 m SAO telescope. At
  the wavelength 2.11 microns a resolution of 75 milli-arcsec (mas) was
  obtained. The reconstructed diffraction-limited image reveals that
  the circumstellar dust shell (CDS) of <ASTROBJ>AFGL 2290</ASTROBJ>
  is at least slightly non-spherical. The visibility function shows
  that the stellar contribution to the total 2.11 microns flux is
  less than ~ 40%, indicating a rather large optical depth of the
  circumstellar dust shell. The 2-dimensional Gaussian visibility fit
  yields a diameter of <ASTROBJ>AFGL 2290</ASTROBJ> at 2.11 microns of
  43 masx51 mas, which corresponds to a diameter of 42 AUx50 AU for an
  adopted distance of 0.98 kpc. Our new observational results provide
  additional constraints on the CDS of <ASTROBJ>AFGL 2290</ASTROBJ>,
  which supplement the information from the spectral energy distribution
  (SED). To determine the structure and the properties of the CDS we have
  performed radiative transfer calculations for spherically symmetric
  dust shell models. The observed SED approximately at phase 0.2 can
  be well reproduced at all wavelengths by a model with T_eff=2000 K,
  a dust temperature of 800 K at the inner boundary r<SUB>1</SUB>, an
  optical depth tau_ {V}=100 and a radius for the single-sized grains
  of a_gr=0.1 microns . However, the 2.11 microns visibility of the
  model does not match the observation. Exploring the parameter space,
  we found that grain size is the key parameter in achieving a fit of
  the observed visibility while retaining the match of the SED, at least
  partially. Both the slope and the curvature of the visibility strongly
  constrain the possible grain radii. On the other hand, the SED at longer
  wavelengths, the silicate feature in particular, determines the dust
  mass loss rate and, thereby, restricts the possible optical depths of
  the model. With a larger grain size of 0.16 microns and a higher tau_
  {V}=150, the observed visibility can be reproduced preserving the
  match of the SED at longer wavelengths. Nevertheless, the model shows
  a deficiency of flux at short wavelengths, which is attributed to the
  model assumption of a spherically symmetric dust distribution, whereas
  the actual structure of the CDS around <ASTROBJ>AFGL 2290</ASTROBJ> is
  in fact non-spherical. Our study demonstrates the possible limitations
  of dust shell models which are constrained solely by the spectral
  energy distribution, and emphasizes the importance of high spatial
  resolution observations for the determination of the structure and the
  properties of circumstellar dust shells around evolved stars. Based
  on data collected at the 6~m telescope of the Special Astrophysical
  Observatory in Russia

---------------------------------------------------------
Title: The dynamical evolution of the fragmented, bipolar dust shell
    around the carbon star IRC +10 216
Authors: Osterbart, R.; Blöcker, T.; Weigelt, G.; Balega, Y. Y.;
   Men'shchikov, A. B.
1999AGAb...15..100O    Altcode:
  We present high-resolution J-, H-, and K-band observations and the
  first H-K color image of the carbon star IRC +10 216. The images
  were reconstructed from 6 m telescope speckle interferograms using
  the bispectrum speckle interferometry method. The H image has the
  unprecedented resolution of 70 mas. The H and K images consist
  of several compact components within a 0.2” radius and a fainter
  asymmetric nebula. A comparison of our images from 1995, 1996, 1997,
  and 1998 gives - almost like a movie of five frames - spectacular
  insight to the dynamical evolution of the inner nebula. For instance,
  the separation of the two brightest components A and B increased from
  191 mas in 1995 to 265 mas in 1998. At the same time, component B is
  fading and the components C and D become brighter. The X-shaped bipolar
  structure of the nebula, most prominently present in the J-band image,
  implies an asymmetric mass-loss. Such asymmetries are often present in
  protoplanetary nebulae but are unexpected for AGB stars. IRC +10 216 is
  thus likely to be very advanced in its AGB evolution, shortly before
  turning into a protoplanetary nebula. The cometary shapes of A in the
  H and J images and in the 0.79 μm and 1.06 μm HST images suggest
  that the core of A is not the central star, but the southern lobe
  of a bipolar structure. The position of the central star is probably
  at or near the position of component B. If the star is at or near B,
  then the components A, C, and D are likely to be located at the inner
  boundary of the dust shell.

---------------------------------------------------------
Title: Bispectrum speckle interferometry of the nucleus of NGC 1068
Authors: Wittkowski, M.; Balega, Y.; Hofmann, K. -H.; Weigelt, G.
1999AGAb...15..128W    Altcode:
  We present new K-band bispectrum speckle interferometry studies of
  the nuclear region of the Seyfert 2 galaxy NGC 1068. The speckle
  interferograms were obtained with the Russian 6 m telescope at three
  different epochs. The decrease of the visibility function reported
  earlier is confirmed by all our new measurements. Furthermore,
  we find that the visibility function is asymmetric. Our results
  are consistent with a model consisting of (a) a compact component
  with an average FWHM size of 30 mas or 2 pc which is elongated along
  position angle -20^<SUP>o</SUP>, (b) an unresolved component and (c)
  an extended northern component. We determine the total flux of both
  the compact component and the unresolved component to be 0.5 Jy. We
  compare our K-band structures with maps obtained at other wavelengths
  with similar angular resolutions and discuss the nature of the three
  components mentioned above.

---------------------------------------------------------
Title: Bispectrum speckle interferometry of the Orion Trapezium stars:
    detection of a close (33 mas) companion of Theta^1Ori C
Authors: Weigelt, Gerd; Preibisch, Thomas; Schertl, Dieter; Balega,
   Yuri; Zinnecker, Hans
1999AGAb...15...98W    Altcode:
  We present bispectrum speckle interferometry observations with
  the SAO 6 m telescope of the four brightest stars in the Orion
  Trapezium. Diffraction-limited images with an unprecedented resolution
  lambda/D of 57 mas and 76 mas were obtained in the H- and K-band,
  respectively. The H and K images of Theta^1Ori C (the star responsible
  for the proplyds) show for the first time that Theta^1Ori C is a close
  binary with a separation of only ~33 mas (H-band observation). The
  sub-arcsecond companions of Theta^1Ori A and Theta^1Ori B reported by
  Petr et al. (1998) are confirmed. We use the magnitudes and colors of
  the companions to derive information about their stellar properties from
  the HR-diagram and find them to be intermediate- or low-mass pre-main
  sequence stars. In addition we briefly discuss the multiplicity of the
  Trapezium stars. Considering both, the visual and the spectroscopic
  companions of the 4 Trapezium stars, there are at least 7 companions,
  i.e. at least 1.75 companions per primary on average. This number is
  clearly higher than that found for the low-mass stars in the Orion
  Nebula cluster as well as in the field population. This suggests that
  a different mechanism is at work in the formation of high-mass multiple
  systems in the dense Trapezium cluster than for low-mass stars.

---------------------------------------------------------
Title: Diffraction-limited 76 mas speckle-masking interferometry of
    the carbon star IRC + 10 216 and related AGB objects with the SAO
    6 m telescope
Authors: Weigelt, G.; Blöcker, T.; Hofmann, K. -H.; Osterbart, R.;
   Balega, Y. Y.; Fleischer, A. J.; Winters, J. M.
1999IAUS..191..273W    Altcode: 1998astro.ph.11276W
  We present high-resolution J-, H-, and K-band observations of the
  carbon star IRC +10 216. The images were reconstructed from 6 m
  telescope speckle interferograms using the speckle masking bispectrum
  method. The H image has the unprecedented resolution of 70 mas. The
  H and K images consist of at least five dominant components within
  a 0.21 arcsec radius and a fainter asymmetric nebula. The J--, H--,
  and K--band images seem to have an X-shaped bipolar structure. A
  comparison of our images from 1995, 1996, 1997, and 1998 shows that the
  separation of the two brightest components A and B increased from ~193
  mas in 1995 to ~246 mas in 1998. The cometary shapes of component A in
  the H and J images and the 0.79 microns and 1.06 microns HST images
  suggest that the core of A is not the central star, but the southern
  (nearer) lobe of the bipolar structure. The position of the central
  star is probably at or near the position of component B, where the H--K
  color has its largest value of H--K = 4.2. If the star is located at
  or near B, then the components A, C, and D are located close to the
  inner boundary of the dust shell at separations of ~200 mas ~30 AU
  (projected distance) ~6 stellar radii for a distance of ~ 150 pc,
  in agreement with our 2-dimensional radiative transfer modelling. In
  addition to IRC +10 216 we studied the stellar disks and the dust
  shells of several related objects. Angular resolutions of 24 mas at
  700 nm or 57 mas 1.6 microns were achieved.

---------------------------------------------------------
Title: Multiplicity of the massive stars in the Orion Nebula cluster
    and implications on their formation mechanism
Authors: Preibisch, Thomas; Hofmann, Karl-Heinz; Weigelt, Gerd;
   Zinnecker, Hans; Balega, Yuri
1999AGAb...15...19P    Altcode:
  We present bispectrum speckle interferometry observations of 13
  bright Orion Nebula cluster member stars of spectral type O or
  B. Diffraction-limited images with a resolution lambda/D of 75 mas in
  the K'-band were obtained with the SAO 6 m telescope. In our speckle
  images we find 8 visual companions in total. Using the flux ratios
  of the resolved systems to estimate the masses of the companions,
  we find that the systems generally have mass ratios below 1/2. The
  distribution of mass ratios seems to be consistent with a companion mass
  function similar to the field IMF. Considering both, the visual and
  the spectroscopic companions of the 13 target stars, the total number
  of companions is at least 14. Extrapolation with correction for the
  unresolved systems suggests that there are at least 1.5 companions per
  primary star on average. This number is clearly higher than the mean
  number of ~0.5 companions per primary star found for the low-mass stars
  in the Orion Nebula cluster as well as in the field population. This
  suggests that a different mechanism is at work in the formation of
  high-mass multiple systems in the dense Orion Nebula cluster than for
  low-mass stars.

---------------------------------------------------------
Title: Bispectrum speckle interferometry observations and radiative
    transfer models of the red supergiant NML CYG
Authors: Blöcker, T.; Hofmann, K. -H.; Weigelt, G.; Balega, Y. Y.
1999AGAb...15..100B    Altcode:
  The star NML Cyg is one of the most prominent infrared objects of
  the northern hemisphere. It was discovered by Neugebauer, Martz &amp;
  Leighton (1965) as an extremely red object. NML Cyg is a highly evolved
  OH/IR supergiant of very large luminosity (spectral type M6 I) which
  suffers from an enormeous mass-loss ( 1.5 ṡ 10^{-4} M_odot/yr) and is
  highly enshrouded by dust. It is supposed to be among the most luminous
  supergiants ( 5 ṡ 10<SUP>5</SUP> L_odot) in the Galaxy. We present
  the first diffraction-limited 2.13 μm observations of NML Cyg with 73
  mas resolution. The speckle interferograms were obtained with the 6 m
  telescope at the Special Astrophysical Observatory. The two-dimensional
  power spectra show an extended nebula. There is only marginal evidence
  for deviations from spherical symmetry. The visibility function declines
  towards the diffraction limit to 0.6. We performed radiative transfer
  calculations assuming sphercial symmetry to model the spectral energy
  distribution and 2.13 μm visibility function. Additionally we consider
  mid-infrared visibility functions recently published by Monnier et
  al. (1997). The observed dust shell properties do not appear to be
  in accordance with standard single-shell models (uniform outflow)
  but seem to require multiple components.

---------------------------------------------------------
Title: High-resolution bispectrum speckle interferometry and
    two-dimensional radiative transfer modeling of the Red Rectangle
Authors: Men'shchikov, A. B.; Balega, Y. Y.; Osterbart, R.; Weigelt, G.
1998NewA....3..601M    Altcode:
  We present the first diffraction-limited K-band image of the
  Red Rectangle with 76 mas resolution, an H-band image with 75 mas
  resolution, and an RG 715 filter image (∼ 800 nm wavelength) with 78
  mas resolution (corresponding to 25 AU for a distance of 330 pc). The
  H and K images were reconstructed from 6 m telescope speckle data and
  the RG 715 image from 2.2 m telescope data using the speckle masking
  bispectrum method. At all wavelengths the images show a compact, highly
  symmetric bipolar nebula, suggesting a toroidal density distribution of
  the circumstellar material. No direct light from the central binary can
  be seen as it is obscured by a dust disk or circumbinary torus. Our
  first high-resolution H-K color image of the nebula shows a broad
  red plateau of H-K≈ 2<SUP>m</SUP> in the bright inner regions. The
  optical and near-infrared images and the available photometric continuum
  observations in a wide range of ultraviolet to centimeter wavelengths
  enabled us to model the Red Rectangle in detail using a two-dimensional
  radiative transfer code. Our model matches both the high-resolution
  images and the spectral energy distribution of this object very well,
  making the following picture much more certain. The central close binary
  system with a total luminosity of 3000 L<SUB>⊙</SUB> is embedded in
  a very dense, compact circumbinary torus which has an average number
  density &lt;n<SUB>H</SUB>&gt; ≈5×10<SUP>12</SUP> cm<SUP>-3</SUP>,
  an outer radius of the dense inner region of R≈30 AU (91 mas), and a
  ρ∝r<SUP>-2</SUP> density distribution. The full opening angle of the
  bipolar outflow cavities in our model is 70°. By comparing the observed
  and theoretical images, we derived an inclination angle of the torus
  to the line of sight of 7°±1°. The radiative transfer calculations
  show that the dust properties in the Red Rectangle are spatially
  inhomogeneous. The modeling confirms that the idea of large grains in
  the long-lived disk around the Red Rectangle (Jura et al., 1997 [ApJ,
  474, 741]) is quantitatively consistent with the observations. In our
  models, unusually large, approximately millimeter-sized grains dominate
  the emission of the compact, massive torus. Models with smaller average
  grain sizes can possibly be found in future studies, for instance, if it
  turns out that the radio spectrum is not mainly caused by continuum dust
  emission. Therefore, the large grains suggested by our models require
  further confirmation by both new observations and radiative transfer
  calculations. Assuming a dust-to-gas ratio ρ<SUB>d</SUB>/ρ<SUB>g</SUB>
  of 0.005, the dense torus mass is 0.25 M<SUB>⊙</SUB>. The model gives
  a lower limit of 0.0018 M<SUB>⊙</SUB>, for the mass of the large
  particles, which produce a gray extinction of A≈ 28<SUP>m</SUP>,
  towards the center. A much smaller mass of submicron-sized dust grains
  is presumably located in the polar outflow cavities, their conical
  surface layers, and in the outer low-density parts of the torus
  (where ρ∝r<SUP>-4</SUP>, in the region of 30 AU≲r≲ 2000 AU
  corresponding to 0.<SUP>”</SUP>09-6<SUP>”</SUP>).

---------------------------------------------------------
Title: Diffraction-limited speckle-masking interferometry of the
    red supergiant VY CMa
Authors: Wittkowski, M.; Langer, N.; Weigelt, G.
1998A&A...340L..39W    Altcode: 1998astro.ph.11280W
  We present the first diffraction-limited images of the mass-loss
  envelope of the red supergiant star VY CMa. The two-dimensional optical
  and NIR images were reconstructed from 3.6 m telescope speckle data
  using bispectrum speckle interferometry. At the wavelengths ~ 0.8 mu m
  (RG 780 filter), 1.28 mu m, and 2.17 mu m the diffraction-limited
  resolutions of 46 mas, 73 mas, and 124 mas were achieved. All
  images clearly show that the circumstellar envelope of VY CMa is
  non-spherical. The RG 780, 1.28 mu m, and 2.17 mu m FWHM Gaußfit
  diameters are 67 masx83 mas, 80 masx116 mas and 138 masx205 mas,
  respectively, or 100 AUx125 AU, 120 AUx174 AU and 207 AUx308 AU
  (for a distance of 1500 pc). We discuss several interpretations
  for the asymmetric morphology. Combining recent results about the
  angular momentum evolution of red supergiants and their pulsational
  properties, we suggest that <ASTROBJ>VY CMa</ASTROBJ>\xspace is an
  immediate progenitor of <ASTROBJ>IRC +10 420</ASTROBJ>, a post red
  supergiant during its transformation into a Wolf-Rayet star. Based on
  data collected at the European Southern Observatory, La Silla, Chile

---------------------------------------------------------
Title: Interferometry with the Large Binocular Telescope
Authors: Angel, J. Roger P.; Hill, John M.; Strittmatter, Peter A.;
   Salinari, Piero; Weigelt, Gerd
1998SPIE.3350..881A    Altcode:
  The Large Binocular Telescope has been designed for optical/IR
  interferometry that combines high sensitivity and resolution. Key
  scientific projects will be deep, wide field IR images of the Hubble
  Deep Field, with nearly ten times the resolution of the Hubble
  telescope, and the study of planets and dust in extra-solar systems,
  from their formation onward. A basic requirement for interferometry of
  faint objects is that the aberrations across the two 8.4m telescopes
  be corrected for atmospheric phase errors. This will be done at
  the telescopes' secondary mirrors, so as to preserve the very l
  ow emissivity of the direct beam combination optics. Sodium lasers
  projected co-axially from above each secondary will allow wavefront
  sensing for correction of even the faintest objects. The two telescopes
  are rigidly mounted close together on a single alt-azimuth mount,
  to cover a large fraction of the uv plane in a single exposure,
  with baselines continuous from 0 to 23 m. Field rotation during the
  night completes the cover, to allow recovery of images with the full
  resolution of a diffraction limited 23 m telescope. The beam combining
  optics will be cryogenically cooled to maintain the very low thermal
  background from only 3 warm reflections in total. For wide field
  imaging, the beams will be combine and stabilized so that in a long
  exposure every source across an approximate 1 arcminute field is
  crossed by interference fringes. From a set of such exposures the
  resultant deep image will have a resolution 0.02 arcsec in the 2.2
  micrometers K band. For high contrast studies of exo-planetary systems,
  a Bracewell nulling system will be used with superposition by division
  of amplitude, for 99.99 percent suppression of the stellar radiation.

---------------------------------------------------------
Title: 76mas speckle-masking interferometry of IRC+10216 with the
SAO 6m telescope: Evidence for a clumpy shell structure
Authors: Weigelt, G.; Balega, Y.; Bloecker, T.; Fleischer, A. J.;
   Osterbart, R.; Winters, J. M.
1998A&A...333L..51W    Altcode: 1998astro.ph..5022W
  We present the first K(') -band image of the carbon star IRC+10216
  with 76mas resolution. The diffraction-limited image was reconstructed
  from 6m telescope speckle data using the speckle masking bispectrum
  method. The image shows that the dust shell of IRC+10216 is extremely
  clumpy. Five individual clouds within a 0farcs21 radius of the
  central star have been resolved for the first time. On the basis
  of consistent theoretical models we argue that these structures are
  produced by circumstellar dust formation. The fragmentation of the
  shell structure gives most likely direct evidence for an inhomogeneous
  mass-loss process which may be interpreted in terms of large-scale
  surface convection-cells (Schwarzschild \cite{Schwschil_75}) being a
  common phenomenon for red giants.

---------------------------------------------------------
Title: Diffraction-limited speckle masking interferometry of binary
    stars with the SAO 6-m telescope
Authors: Schoeller, M.; Balega, I. I.; Balega, Y. Y.; Hofmann, K. -H.;
   Reinheimer, T.; Weigelt, G.
1998AstL...24..283S    Altcode: 1998PAZh...24..337S
  Optical speckle masking observations of 32 binary and multiple
  stars with the SAO 6-m telescope are presented. The resolution of the
  reconstructed diffraction-limited images is 23 mas at 656 nm. Accurate
  magnitude differences were first determined for most binaries. The
  results for individual systems are compared with the available orbits
  and with published photometric data. A new close visual component was
  discovered in the multiple system ADS 784.

---------------------------------------------------------
Title: High-resolution Speckle Imaging and Radiative Transfer Modeling
    of the Red Rectangle
Authors: Osterbart, R.; Men'shchikov, A. B.; Weigelt, G.; Balega,
   Y. Y.; Langer, N.
1998AGAb...14..114O    Altcode: 1998AGM....14..P31O
  We present diffraction-limited optical and NIR images of the Red
  Rectangle reconstructed from ESO/MPG 2.2 m and SAO 6 m telescope
  data. The unprecedented resolution of ~75 mas was achieved by applying
  the speckle masking bispectrum method to the data. The bipolar structure
  of the Red Rectangle is visible at all observed wavelengths. Two
  bright compact lobes are present in the center of the nebula with a
  separation of approximately 0.15^{”}. A dark dust lane totally obscures
  the central close binary. This structure and the X-shape of the nebula
  on larger scales are thought to be the result of a rather strong wind
  clearing the polar cavities. Our 2D radiative transfer calculations
  show that the bipolar appearance is caused by a very dense, compact
  torus with an optical depth of A_V ~ 30 mag. From a comparison of
  the observed and theoretical images, we derived an inclination angle
  of 7^\circ for the torus. The model torus has a \rho \propto r^{-2}
  dust density distribution between the inner boundary at ~ 6 AU and
  R~ 16 AU (~ 50 mas), while at larger distances the density gradient
  steepens to approximately \rho \propto r^{-4}. We derived a lower
  limit for the total dust mass in the torus of ~ 2 10^{-3} M_\odot. The
  radiative transfer calculations show that the best agreement with all
  observational constraints can be found if the compact, massive torus
  contains predominantly very large (millimeter-sized) grains. A much
  smaller mass of normal (submicron-sized) grains must exist mainly in
  the bipolar outflow regions.

---------------------------------------------------------
Title: Diffraction-limited Bispectrum Speckle Interferometry of the
    Carbon Star IRC +10 216 with the SAO 6 M telescope
Authors: Osterbart, R.; Bloecker, T.; Men'shchikov, A. B.; Weigelt,
   G.; Balega, Y. Y.; Winters, J. M.
1998AGAb...14..115O    Altcode: 1998AGM....14..P32O
  We present the first H- and K-band images of the carbon star IRC
  +10 216 with ~76 mas resolution. The images were reconstructed from
  6 m telescope speckle data using the speckle masking bispectrum
  method. Several individual components of the circumstellar dust shell
  can be resolved at separations of approximately 100 to 200 mas from the
  central object. The dust clouds are located inside a larger nebulosity
  of a bipolar, X-shaped structure with an approximate NS polar axis. The
  high-resolution images as well as the SED of the object are compared
  with results of 2D radiative transfer calculations. The considerable
  brightness of one of the clouds can be explained if we assume that the
  central star is heavily obscured by circumstellar dust clouds. The
  radius of the central object was determined to be approximately
  25 mas. Our high-resolution observations obtained at different
  epochs within the last 3 years suggest a dynamical evolution of the
  resolved structures caused by the expansion of the dust shell. For
  the interpretation of the resolved shell structures we compared our
  observations with time-dependent model calculations for carbon-rich
  circumstellar dust shells. The fragmentation of the dust shell can most
  likely be interpreted as direct evidence for a mass-loss process of
  extreme inhomogeneity, possibly caused by large-scale surface convection
  cells (supergranulation) of red giants discussed by Schwarzschild.

---------------------------------------------------------
Title: The hypergiant IRC +10 420: High-resolution speckle-masking
    interferometry and dust-shell modelling
Authors: Bloecker, T.; Hofmann, K. -H.; Lichtenthaeler, J.; Osterbart,
   R.; Weigelt, G.; Balega, Y. Y.
1998AGAb...14..116B    Altcode: 1998AGM....14..P34B
  The peculiar star IRC +10 420 is an outstanding object for the study of
  stellar evolution. It is one of the brightest IRAS objects due its very
  strong infrared excess by circumstellar dust and one of the warmest
  stellar OH maser sources known. It exhibits large mass-loss rates,
  typically of the order of several 10^{-4} M_{\odot}/yr, and, even
  more importantly, its spectral type changed from F8 I_a^{+} in 1973
  (Humphreys et al.\ 1973, ApJ 179, L49) to A-type today (Oudmaijer et
  al. 1996, MNRAS 280, 1062) corresponding to an effective temperature
  increase of 1000--2000 K within only 20 yr. Due to its distance,
  large wind velocity and photometric history IRC +10 420 is most likely
  a luminous hypergiant evolving off the RSG branch, therefore being
  the only massive object observed up to now in its transition to the
  Wolf-Rayet phase. We present the first diffraction-limited K-band
  observations of IRC +10 420 with 76 mas resolution. The speckle
  interferograms were obtained with the 6 m telescope at the Special
  Astrophysical Observatory. The visibility shows an unresolved central
  object and an extended dust shell. The dust shell contributes ~ 40 % to
  the total flux. We performed radiative transfer calculations to model
  the spectral energy distribution and visibility. The observed dust
  shell properties cannot be fitted by single-shell models but require
  the introduction of different temperature and density components.

---------------------------------------------------------
Title: Diffraction-limited IR speckle masking observations of the
    central regions of Seyfert galaxies
Authors: Wittkowski, M.; Balega, Y.; Beckert, T.; Duschl, W. J.;
   Hoffman, K. -H.; Weigelt, G.
1998IAUS..184..103W    Altcode:
  We present first results of diffraction-limited NIR speckle masking
  investigations of the nuclei of Seyfert galaxies with angular
  resolutions of 100 mas. Using the K-band, we find compact structures
  in NGC 4151 and NGC 1068 with sizes 2.5 pc. Assuming optically thin
  synchrotron radiation from quasi-monoenergetic relativistic electrons,
  we are able to derive characteristic parameters of the emitting source
  (size, electron energy, electron density,magnetic field) from the
  radio-NIR spectrum of the nucleus. We find that the synchrotron source
  is much smaller than our angular resolution thus indicating that the
  resolved structures in our NIR images are circumnuclear gas and dust.

---------------------------------------------------------
Title: Interferometry with the Large Binocular Telescope
Authors: Zinnecker, H.; Hasinger, G.; Storm, J.; Weigelt, G.
1998AGAb...14...92Z    Altcode: 1998AGM....14..L07Z
  The Large Binocular Telescope (LBT), with its two 8.4m telescopes
  separated by 14.4m (centre-to-centre), is scheduled to be ready
  for interferometric observations in the combined beam by the year
  2004. To be operational in this mode, adaptive optics wave front
  correction must first be applied (using adaptive secondary mirrors)
  to each of the two individual telescopes and then the optical path
  length difference between the “two eyes" needs to be measured
  and corrected for in real time (fringe tracking). This will allow
  the investigation of the structure of astronomical objects at 10
  times the spatial resolution of the Hubble Space Telescope. First
  observations are likely to concentrate on the near (2 \mum) or mid (10
  \mum) infrared wavelength region. Science on the extragalactic side
  includes deep imaging studies of the Hubble Deep Field, the Lockman
  Hole, active galactic nuclei and their circumnuclear starbursts,
  and of star formation in colliding/merging high-redshift galaxies. On
  the galactic side, science with the LBT interferometer will focus on
  obtaining true images of circumstellar/protoplanetary disks around
  young stars and on direct imaging of giant planets in orbit around
  many nearby stars. Differential astrometry at the 1 mas level over
  a wide FOV (1-2 arcmin) in the the near-infrared should also become
  possible, e.g. for proper motion measurements of distant Galactic halo
  stars against some quasar reference. More about interferometry with
  the LBT can be found in a recent article by Angel et al. accessible
  at http://medusa.as.arizona.edu/lbtwww/tech/interf98.htm

---------------------------------------------------------
Title: Diffraction-limited 76mas speckle masking observations of
    the core of NGC 1068 with the SAO 6m telescope
Authors: Wittkowski, M.; Balega, Y.; Beckert, T.; Duschl, W. J.;
   Hofmann, K. -H.; Weigelt, G.
1998A&A...329L..45W    Altcode: 1997astro.ph.11254W
  We present the first K-band bispectrum speckle interferometry of NGC1068
  with an angular resolution of 76mas ( ~ 5.5pc). This angular resolution
  allows us to attribute the measured flux to only one of the nuclear
  sources seen at radio wavelengths. The observed decreasing visibility
  function suggests that the dominant central core is probably not an
  unresolved point source, but slightly resolved with a FWHM diameter
  of ~ 30mas ~ 2pc for an assumed Gaussian intensity distribution. This
  30mas object is possibly the nuclear torus and/or a scattering halo. We
  discuss different contributions to the observed K band flux. Between
  5GHz and the K-band the spectrum of this component is close to a nu
  (1/3) proportionality. In addition to the standard interpretation
  of a hot dust torus surrounding the nucleus of NGC1068, one cannot
  exclude the possibility that a sizeable fraction of the nuclear flux
  reaches us via a scattering halo. This then would allow us to determine
  physical parameters of the nuclear source. Based on data collected at
  the Special Astrophysical Observatory, Russia

---------------------------------------------------------
Title: 75 MAS Speckle Imaging and Radiative Transfer Modeling of
    the Red Rectangle
Authors: Osterbart, R.; Balega, Y. Y.; Langer, N.; Men'shchikov,
   A. B.; Weigelt, G.
1998IAUS..191P.519O    Altcode:
  We present diffraction-limited optical and Near-IR images of the
  Red Rectangle reconstructed from ESO/MPG 2.2 m and SAO 6 m telescope
  data. The unprecedented resolution of about 75 mas was achieved by
  applying the speckle masking bispectrum method to the data. The results
  reveal a bipolar structure of the Red Rectangle over a wide range of
  wavelengths. The nebula appears as two bright compact lobes (separation
  ~0.15^”) with a pronounced {X}-shaped structure. A dark dust lane
  totally obscures the central close binary which has probably undergone
  a common envelope phase. This structure is thought to be the result
  of a rather strong wind clearing the polar cavities. Our 2D radiative
  transfer calculations show that this appearance is due to a very dense,
  compact torus with an optical depth of A_V ~30 mag. The full opening
  angle of the bipolar outflow cavities in our model is 70^circ. From
  a comparison of the observed and theoretical images, we derived an
  inclination angle of 7^circ for the torus. The model torus has a rho
  propto r^{-2} dust density distribution between the inner boundary at
  ~6 AU and R ~16 AU (~50 mas), while at larger distances, the density
  gradient steepens approximately to rho propto r^{-4}. We derived a lower
  limit for the total dust mass in the torus of ~2 10^{-3} M_odot. The
  radiative transfer calculations also show that the dust properties
  in the Red Rectangle are spatially very inhomogeneous. The compact,
  massive torus contains predominantly very large (millimeter-sized)
  grains, while a much smaller mass of normal (submicron-sized) grains
  must exist mainly in the bipolar outflow regions.

---------------------------------------------------------
Title: Diffraction-limited speckle masking observations of the Mira
    variables R CAS and R Leo with the 6 M SAO telescope
Authors: Hofmann, K. -H.; Weigelt, G.; Balega, Y. Y.; Scholz, M.
1998AGAb...14R.121K    Altcode: 1998AGM....14..P45K
  We present the first diffraction-limited optical and infrared speckle
  masking observations of Mira stars with the 6 m SAO telescope. A
  resolution of 24 mas was achieved at 700 nm wavelength. The speckle
  interferograms were recorded through various narrow-band interference
  filters between 673 nm and 1045 nm covering strong and weak TiO
  absorption bands and the continuum. Mira stars show substantial
  variations of their angular size with wavelength caused by the
  wavelength dependence of TiO opacity. Our reconstructions show that
  the disk of R Cas is non-uniform and elongated. The size (elliptical
  uniform disk fit) of the elongated disk is 35 mas x 40 mas in the
  700 nm pseudo-continuum filter and 42 mas x 56 mas in the 714 nm TiO
  absorption band filter. In the 1045 nm continuum image the disk of R
  Cas shows no asymmetry and has a uniform disk diameter of 30 mas. The
  goal of our Mira star project is to provide the basic observations for
  a quantitative analysis of the photospheric structure of Mira variables
  and thus to test Mira star models. We compare our observations of R
  Cas and R Leo with the models of Bessell et al. (1996). Using the
  E model series of Bessell et al. we find, for instance, for R Cas
  a photospheric (Rosseland) radius of 380+/-70 R_{\odot} and a low
  effective temperature of approximately 1900 K near minimum phase.

---------------------------------------------------------
Title: Speckle masking imaging and radiative transfer modeling of
    the oxygen-rich dust shells of AFGL 2290 and CIT 3
Authors: Irrgang, P.; Balega, Y. Y.; Gauger, A.; Osterbart, R.;
   Schniggenberg, G.; Weigelt, G.
1998IAUS..191P.408I    Altcode:
  The extreme mass loss suffered by stars on the asymptotic giant branch
  (AGB) substantially affects the appearance of these objects, which
  is dominated by the development of opaque, massive, circumstellar
  dust shells (CDS), and even more important, it determines the final
  evolution to the planetary nebula stage. High spatial resolution
  observations directly provide information on important properties
  of CDS around AGB stars, such as the dimensions and geometry of the
  shell, and thereby contribute strong constraints for the modeling
  of the mechanisms and processes determining these circumstellar
  environments. We present diffraction-limited speckle masking
  observations of the oxygen-rich AGB stars AFGL 2290 (OH 39.7+1.5)
  at 2.2 microns and of CIT 3 (OH 128.6-50.1) at 1.65 microns and 2.2
  microns. The speckle interferograms were obtained with the SAO 6 m
  telescope, and we achieved the diffraction-limited resolutions of 56
  mas and 76 mas at 1.65 microns and 2.2 microns, respectively. The CDS
  of AFGL 2290 is partially resolved and found to be slightly asymmetric
  with a mean Gaussian FWHM diameter of ~42 mas. The azimuthally averaged
  visibility yields an upper limit of ~25% for the stellar contribution
  to the 2.2 microns flux, suggesting a rather high optical depth. We
  have performed detailed radiative transfer calculations assuming a
  spherically symmetric dust shell, and found that such models reproduce
  either the observed spectral energy distribution, or the measured
  visibility of AFGL 2290, but not both simultaneously. We interpret this
  behaviour as being due to a non-spherical dust distribution supporting
  the evidence from the speckle masking image reconstruction. The speckle
  imaging results for CIT 3 indicate a more structured CDS compared to
  AFGL 2290. The azimuthally averaged visibilities can only be well fitted
  with a two-component model consisting of a partially resolved smaller
  component and a fully resolved nebulosity, which is several times more
  extended. The smaller component represents the hot innermost region
  of the CDS, whereas the presence of the extended component might point
  to a change of physical properties in the outflow.

---------------------------------------------------------
Title: Speckle masking observations and radiative transfer modeling
    of the oxygen-rich dust shells of AFGL 2290 and CIT 3
Authors: Gauger, A.; Irrgang, P.; Osterbart, R.; Schniggenberg, G.;
   Weigelt, G.; Balega, Y. Y.
1998AGAb...14..115G    Altcode: 1998AGM....14..P33G
  High spatial resolution observations directly provide information
  on important properties of circumstellar dust shells (CDS) around
  asymptotic giant branch (AGB) stars, such as the dimensions and the
  geometry of the shell, and therefore contribute strong constraints for
  the radiative transfer modeling of these circumstellar environments. We
  present the first diffraction-limited speckle masking observations of
  the oxygen-rich AGB stars AFGL 2290 (OH 39.7+1.5) and CIT 3 (IRC+10011)
  at near infrared wavelengths. The speckle interferograms were obtained
  with the Russian SAO 6m telescope. We achieved the diffraction-limited
  resolutions of 56 mas at 1.65 \mu m and 76 mas at 2.2 \mu m. The CDS of
  AFGL 2290 is found to be slightly asymmetric with a mean Gaussian FWHM
  diameter of ~ 42 mas at \lambda=2.2 \mu m. The derived visibility yields
  an upper limit for the stellar flux contribution at 2.2 \mu m of ~ 40 %,
  suggesting a rather high optical depth. We have found that radiative
  transfer models assuming a spherically symmetric dust shell either
  reproduce the observed spectral energy distribution, or the measured
  visibility of AFGL 2290, but not both simultaneously. This behaviour
  is interpreted as being due to a non-spherical dust distribution. The
  observations of CIT 3 showed that its CDS has a two component structure:
  a compact inner component with a Gaussian FWHM diameter of ~ 40 mas
  at \lambda=2.2 \mu m, and a weaker nebulosity, which is several times
  more extended.

---------------------------------------------------------
Title: Diffraction-limited speckle masking observations of the Mira
    variables R Cas and R Leo with the 6 m SAO telescope.
Authors: Hofmann, K. -H.; Weigelt, G.; Balega, Y. Y.; Scholz, M.
1998AGAb...14Q.125H    Altcode: 1998AGM....14..P52H
  No abstract at ADS

---------------------------------------------------------
Title: High-resolution imaging of the bipolar nebula Red
    Rectangle. Evidence for unstable mass transfer in a close binary
    system.
Authors: Osterbart, R.; Langer, N.; Weigelt, G.
1997A&A...325..609O    Altcode:
  We present the first diffraction-limited speckle-masking bispectrum
  observations of the central part of the Red Rectangle at optical
  wavelengths (λ~656nm and λ~800nm). The results confirm infrared
  observations which show that the object is a bipolar nebula. The dark
  lane separating the two lobes is probably produced by an obscuring dust
  disk slightly inclined with respect to the line of sight. The fainter
  northern lobe appears not to be reddened by the disk. This implies an
  upper limit of the outer disk radius of about 200AU. We propose that
  the observed nebula is the result of recent mass ejection induced by
  unstable mass transfer from an AGB star to a close companion.

---------------------------------------------------------
Title: Speckle interferometry of the spectroscopic binaries Gliese
    150.2 and 41 Draconis
Authors: Balega, I. I.; Balega, Yu. Yu.; Falcke, H.; Osterbart, R.;
   Reinheimer, T.; Schöller, M.; Weigelt, G.
1997AstL...23..172B    Altcode: 1997PAZh...23..199B
  We present the first diffraction-limited, visible and infrared speckle
  masking observations of the nearby spectroscopic binaries Gl 150.2 and
  41 Dra performed with the 6-m telescope. Gl 150.2 is a pair of K0 and
  M0 dwarfs with a magnitude difference of 2.49+-0.05 mag in the red. Its
  orbital period is close to ten years. A preliminary apparent orbit
  was derived for the pair 41 Dra with double-lined F7 V components
  from six speckle measurements. The masses of the components of 41
  Dra determined with an error of +-16% are 1.26 and 1.18msun. Their
  absolute magnitudes, M_bol(a)=2.92 and M_bol(b) = 3.30, place them
  0.8 mag above the main-sequence stars of the same spectral range.

---------------------------------------------------------
Title: Interferometric Observations of Mira Stars
Authors: Hofmann, K. -H.; Balega, Y.; Scholz, M.; Weigelt, G.
1997svlt.work..367H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Diffraction-limited speckle-masking observations of the Red
    Rectangle and IRC+10216 with the 6 M telescope
Authors: Osterbart, R.; Balega, Y. Y.; Weigelt, G.; Langer, N.
1997IAUS..180..362O    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: VizieR Online Data Catalog: Massive stars in I Zw 36
    (Deharveng+ 1994)
Authors: Deharveng, J. -M.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Crane, P.; Disney, M. J.; Jakobsen, P.; Kamperman,
   T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.; Paresce, F.; Weigelt,
   G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.; Sparks,
   W. B.
1997yCat..32880413D    Altcode:
  We have observed the blue dwarf galaxy I Zw 36 with the f/96 relay
  of the HST Faint Object Camera and have for the first time resolved
  massive stars, using the broad band filters F175W, F342W, F430W and
  F480LP. We have measured the fluxes of 143 of these objects and studied
  their characteristics in color-magnitude diagrams. A few stars may be
  red supergiants but their contribution to the integrated light is less
  than 5% in the F430W filter. The F175W-F430W color of the integrated
  stellar population is redder than expected from the current burst
  of star formation, suggesting therefore the presence of an older
  and unresolved underlying population. The ultraviolet measurements
  combined with synthetic photometry calculations allow us to place the
  massive stars in a bolometric magnitude vs. temperature diagram. In
  this diagram, the stars are compared to evolutionary tracks for
  different stellar masses. The current burst probably has an age less
  than 12Myr. We infer an Initial Mass Function, with a power-law slope
  in the range -1.7 to -2.6 for masses M&gt;=20M<SUB>⊙</SUB>. This is
  consistent with most of the values reported for sites of star formation
  in the Galaxy and the Magellanic Clouds and does not support the view
  of an IMF flattening at low metallicity. (1 data file).

---------------------------------------------------------
Title: Speckle masking interferometry with the Large Binocular
    Telescope
Authors: Reinheimer, T.; Hofmann, K. -H.; Scholler, M.; Weigelt, G.
1997A&AS..121..191R    Altcode:
  We present a method for interferometric imaging with the Large
  Binocular Telescope (LBT) at optical and infrared wavelengths. For
  example, at lambda = 550 nm a resolution of 6.1 mas can be obtained. The
  uv-coverage is excellent due to the small distance between the two 8.4
  m mirrors. We show laboratory and computer experiments of LBT speckle
  masking interferometry. The raw data were produced by simulating light
  propagation in the atmosphere, the LBT pupil function, earth rotation,
  and photon noise. The generated data sets consist of up to 200,000
  LBT interferograms per experiment with 200 to 2000 photoevents per
  interferogram. 200,000 interferograms correspond to only 1.1 hours
  observing time for a frame rate of 50 frames/sec. In the computer
  simulations a Fried parameter of 40 cm was simulated which corresponds
  to 0.35 arcsec seeing. Diffraction-limited images were reconstructed
  from the various data sets by a modified version of the speckle
  masking method (bispectral analysis, triple correlation method) and
  the iterative building block method. The reconstructed images show
  the dependence of the signal-to-noise ratio on photon noise and other
  parameters. In one of the experiments the object was a compact cluster
  of four stars and the interferograms consisted of only 200 photoevents
  per interferogram. 200 photoevents per interferogram correspond to a
  total $V$ magnitude ~14.3 for two 8 m telescopes, 20 msec exposure time
  per interferogram, 5 nm filter bandwidth, and 10% quantum efficiency
  of detector plus optics. In this experiment the magnitudes of the four
  individual stars were 15.6, 15.8, 16.4, and 17.1. In a second experiment
  a compact galaxy with total magnitude of 11.3 and magnitude ~14 of the
  faintest resolution element was simulated and a diffraction-limited
  image reconstructed successfully from only 200\,000 interferograms (1.1
  hour observing time). Objects of about 18th magnitude can be observed
  if observing time is increased and observations are made simultaneously
  in many spectral channels. An advantage of speckle masking is that it
  can be applied to objects fainter than 14th $V$ magnitude, whereas for
  adaptive optics (with natural reference stars for wavefront sensing)
  the object or the reference star has to be brighter than about 14th
  magnitude. Diffraction-limited images of objects fainter than 18th
  magnitude can be obtained by LBT speckle masking observations if
  partial wavefront compensation (low-order adaptive optics) is achieved
  by an artificial laser guide star system (\cite[Foy \&amp; Labeyrie
  1985]{Foy1985}; \cite[Fugate et al. 1991]{Fugate1991}; \cite[Primmerman
  et al. 1991]{Primmerman1991})

---------------------------------------------------------
Title: Speckle masking observations of the circumnuclear region of
    NGC 1068 in the K-band.
Authors: Wittkowski, M.; Balega, Y.; Beckert, T.; Duschl, W. J.;
   Hofmann, K. -H.; Weigelt, G.
1997AGAb...13...64W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Speckle Masking Imaging of the Spectroscopic Binaries Gliese
    150.2 and 41 Draconis
Authors: Balega, I.; Balega, Yu.; Falcke, H.; Osterbart, R.; Schöller,
   M.; Weigelt, G.
1997ASSL..223...73B    Altcode: 1997vdsf.conf...73B
  No abstract at ADS

---------------------------------------------------------
Title: Multi-Speckle Interferometric Imaging with the Vlti and the
    LBT at Optical Wavelengths
Authors: Reinheimer, Th.; Hofmann, K. -H.; Schöller, M.; Weigelt, G.
1997svlt.work..387R    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Infrared Interferometric Imaging with the Vlti in the
    Multi-Speckle Mode with a Combination of the 8 M Uts and the 2 M ATS
Authors: Reinheimer, Th.; Weigelt, G.
1997svlt.work..389R    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Interferometric Studies of Late Phases of Stellar Evolution
Authors: Weigelt, G.; Balega, Y.; Hofmann, K. -H.; Langer, N.;
   Osterbart, R.
1997svlt.work..206W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: HST/GHRS Observations of the Compact Slow Ejecta of Eta Carinae
Authors: Davidson, Kris; Ebbets, Dennis; Johansson, Sveneric; Morse,
   Jon A.; Hamann, Fredrick W.; Balick, B.; Humphreys, R. M.; Weigelt,
   G.; Frank, A.
1997AJ....113..335D    Altcode:
  We report spectroscopic observations of eta Car and adjacent gas with
  an unprecedented combination of spatial and spectral resolution, 0.1
  arcsec x 0.1 Angstroms. Radial velocities show that the bright objects
  C and D, 0.2 arcsec from the star, are slow equatorial ejecta. The
  narrow emission lines which fluctuate in the spectrum of the core
  region are found to originate in C, D, and related gas. Our data and
  earlier speckle observations suggest that either C and D were formed
  long after the Great Eruption of eta Car had ceased, or else they have
  been continuously accelerated outward since they were ejected. These
  strange objects are essential components of the equatorial-debris
  puzzle, which is crucial regarding the nature of this star and its
  instability. Moreover, the observed bright narrow emission lines in
  CD are excited by peculiar mechanisms that deserve more attention.

---------------------------------------------------------
Title: First diffraction-limited speckle masking observations of
    the Mira variable R CAS with the 6m SAO telescope.
Authors: Weigelt, G.; Balega, Y.; Hofmann, K. -H.; Scholz, M.
1996A&A...316L..21W    Altcode:
  We present the first diffraction-limited speckle masking observations
  of a Mira star with the Russian 6m SAO telescope. At 700 and 714nm
  wavelength a resolution of 1.22λ/D=30milli-arcsec was achieved. The
  reconstructed true images are the images with the highest resolution
  obtained up to now in this wavelength region. The speckle interferograms
  of R Cas were recorded through interference filters with center
  wavelength/bandwidth of 714nm/6nm (strong TiO band absorption) and
  700nm/6nm (moderate TiO absorption). The two reconstructed images show
  that the azimuthally averaged 700 and 714nm uniform-disk diameters of
  R Cas are 36mas+/-2mas and 49mas+/-2mas, respectively. In the 700nm
  and 714nm images the disks of R Cas are non-uniform and elongated
  along position angle 52+/-7deg and 57+/-7deg, respectively. The
  size (ellptical uniform disk fit) of the elongated disks is about
  33.3masx38.7mas (axial ratio 0.86) in the 700nm pseudo-continuum filter
  and 42.3masx55.6mas (axial ratio 0.76) in the 714nm TiO absorption
  band filter. We discuss briefly theoretical aspects of these and
  previous observations.

---------------------------------------------------------
Title: Simultaneous optical speckle masking and NIR adaptive optics
    imaging of the 126mas Herbig Ae/Be binary star NX Puppis.
Authors: Schoeller, M.; Brandner, W.; Lehmann, T.; Weigelt, G.;
   Zinnecker, H.
1996A&A...315..445S    Altcode: 1996astro.ph..6053S
  We present simultaneous optical and near-infrared high angular
  resolution observations of the close Herbig Ae/Be binary star NX Pup
  which is associated with cometary globule 1. The reconstructed images
  have a diffraction-limited resolution of 62mas in V, 75mas in R (speckle
  masking reconstruction), and 115mas in H, 156mas in K (adaptive optics +
  post-processing). Compared to previous results we were able to derive
  better estimates on spectral type and luminosity and hence put better
  constraints on the evolutionary status (mass &amp; age) of NX Pup A
  and B: with NX Pup A of spectral type F0-F2 we estimate the spectral
  type of NX Pup B in the range F7-G4, masses of 2M<SUB>sun</SUB>_ and
  1.6-1.9M<SUB>sun</SUB>_, respectively, and an age of 3-5Myr for both
  stars. We discuss the implication of the new age determination on
  the physical relation between NX Pup and the cometary globule. The
  dynamical lifetime of =~10^6^yr for cometary globule 1 suggests
  that cometary globule 1 and the nearby cometary globule 2 represent
  transient phenomena and are left overs of a larger molecular cloud
  which in turn was the parental cloud of NX Pup A and B and finally
  got dispersed by photoevaporation. The IR excess of NX Pup A can be
  modeled by a viscous accretion disk, which is cut off at =~20AU from
  the star. NX Pup B has a smaller IR excess which indicates that there
  is less circumstellar material present than around the primary.

---------------------------------------------------------
Title: VizieR Online Data Catalog: UV photometry of NGC 6397
    (Burgarella+ 1994)
Authors: Burgarella, D.; Paresce, F.; Meylan, G.; King, I. R.;
   Greenfield, P.; Baxter, D.; Jedrzejewski, R.; Nota, A.; Albrecht, R.;
   Barbieri, C.; Blades, J. C.; Boksenberg, A.; Crane, P.; Deharveng,
   J. M.; Disney, M. J.; Jakobsen, P.; Kamperman, T. M.; Macchetto, F.;
   Mackay, C. D.; Weigelt, G.
1996yCat..32870769B    Altcode:
  The core of the nearby and very concentrated globular cluster NGC 6397
  has been imaged through the f/96-F140W, f/48-F140W, f/96-F210M and
  f/48-F220W ultraviolet filters of the Faint Object Camera on board
  the Hubble Space Telescope down to an ultraviolet limiting magnitude
  of ~19. The most interesting objects in the field of view are six
  very bright centrally concentrated, blue stragglers observed for the
  first time in the UV. Using these and other data from ground-based
  observations, we have been able to deduce from a comparison with
  Kurucz's atmosphere models, temperatures of ~10000K and masses of
  ~1.6M<SUB>⊙</SUB> for the four brightest ones, which is remarkably
  close to twice the turn-off mass of NGC 6397. This finding supports the
  idea that two-star mechanisms (collisions, mergers) are at the origin of
  the blue stragglers in the core of NGC 6397. Since the central density
  is very high, collisions between main sequence stars are frequent,
  therefore providing the best formation mechanism. We have computed
  the number of such collisions in the core of NGC 6397 and found it to
  be of the same order as the number of bright blue stragglers observed
  there. Thanks to the HST resolution, we have also been able to resolve
  one object, previously classified as a yellow straggler, into a blend
  of a blue straggler and three redder stars. (1 data file).

---------------------------------------------------------
Title: Simultaneous optical speckle and ADONIS imaging of the 126
    mas Herbig Ae/Be binary star NX Puppis.
Authors: Brandner, W.; Lehmann, T.; Schöller, M.; Weigelt, G.;
   Zinnecker, H.
1996Msngr..83...43B    Altcode:
  The authors have obtained simultaneous high spatial resolution optical
  speckle and near-infrared adaptive optics images of the 126 mas Herbig
  Ae/Be binary star NX Pup and could derive accurate estimates for the
  evolutionary status of both components. Furthermore, they were able to
  decompose the overall spectral energy distribution into its constituent
  parts, namely the contribution of the two stellar photospheres and
  the infrared excess due to circumstellar material associated with
  both stars.

---------------------------------------------------------
Title: Speckle-masking imaging polarimetry of η Carinae: evidence
    for an equatorial disk.
Authors: Falcke, H.; Davidson, K.; Hofmann, K. -H.; Weigelt, G.
1996A&A...306L..17F    Altcode: 1996astro.ph..1119F
  With our new speckle imaging polarimeter we have obtained the first
  polarimetric images with<SUB>arcsecond</SUB> resolution of the Luminous
  Blue Variable η Carinae in the Hα line. The polarization patterns at
  the 3" scale match well earlier conventional imaging photometry and
  can be interpreted as Mie scattering. In crosscorrelation-centered
  images we detected in polarized light a bar in the NE part of the
  equatorial plane of η Carinae. High-resolution 0.11" polarimetric
  speckle reconstructions reveal a compact structure elongated in the
  same direction which is consistent, in degree and position angle of the
  polarisation, with the presence of a circumstellar, equatorial disk. The
  degree of polarization of the previously discovered speckle objects and
  the Hα arm is relatively low (~10%) and thus may indicate a position
  within the equatorial plane. We also discovered a highly polarized
  (20%-40%) bipolar structure along the major axis of the Homunculus
  nebula which can be traced down to the sub-arcsecond scale. This is
  probably the inner part of a bipolar outflow into the Homunculus.

---------------------------------------------------------
Title: Is there a Dichromatic UV Laser in Eta Carinae?
Authors: Johansson, S.; Davidson, K.; Ebbets, D.; Weigelt, G.; Balick,
   B.; Frank, A.; Hamann, F.; Humphreys, R. M.; Morse, J.; White, R. L.
1996swhs.conf..361J    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Diffraction-limited images of the Mira-type variable R Cas.
Authors: Hofmann, K. -H.; Balega, Y. Y.; Scholz, M.; Shkhagosheva,
   Z. U.; Weigelt, G.
1996BSAO...39...59H    Altcode:
  The authors present the first diffraction-limited speckle masking
  observations of the long-period variable star R Cas with the 6 m SAO
  telescope. At 700 nm wavelength the resolution of the reconstructed
  images is λ/D = 25 mas. Speckle interferograms were recorded
  through interference filters with centre wavelength/bandwidth of 714
  nm/6 nm (strong TiO absorption band) and 700 nm/6 nm (moderate TiO
  absorption). The two reconstructed images show that the average 700
  nm diameter of R Cas is 37±2 mas, while the average 714 nm diameter
  is 50±3 mas. Both images show the elliptical shape with an axis ratio
  of about 0.8.

---------------------------------------------------------
Title: Speckle masking observations of R 64, the dense stellar core
    of the OB association LH9 in the Large Magellanic Cloud.
Authors: Schertl, D.; Hofmann, K. -H.; Seggewiss, W.; Weigelt, G.
1995A&A...302..327S    Altcode:
  We present speckle masking observations of R 64 (=HD 32228; O9.5II:
  + WC5), the central object of the OB association LH9 in the Large
  Magellanic Cloud. Two sets of speckle interferograms were taken to
  select the Johnson V spectral band and the strong Wolf-Rayet emission
  lines between 450 and 490nm. In the 6.4"x6.4" field of view 25 stellar
  components were detected in R 64 with V magnitudes in the range 12.5 to
  17.1 and down to a resolution of 0.12". The brightest star in the visual
  component B is the only Wolf-Rayet star in R 64. The colour-magnitude
  diagram of LH9, completed with the components of R 64, serves for
  the discussion of the evolutionary state of the association. There is
  evidence that the outer regions of LH9 are its youngest parts with an
  upper age of about 5Myr, in accordance with estimates by Walborn &amp;
  Parker (1992). The WC5 star in the centre is most likely the product of
  mass exchange in a massive close binary system with an age in excess
  of 5Myr. The mass density in R 64 is about 250M<SUB>sun</SUB>_pc^-3^
  for stars more massive than 5M<SUB>sun</SUB>_.

---------------------------------------------------------
Title: Speckle masking observations of HD 97950 with 75 MAS
resolution: evolution of the stellar core of the starburst cluster
    NGC 3603.
Authors: Hofmann, K. -H.; Seggewiss, W.; Weigelt, G.
1995A&A...300..403H    Altcode:
  We present diffraction-limited speckle masking observations of
  the central object HD 97950 in the giant HII region and starburst
  cluster NGC 3603. In the reconstructed images 28 stellar components
  with V magnitudes in the range from 11.40 to 15.85 were detected in
  the 6.3x6.3" (about 0.2x0.2pc) field of view. Four different filters
  were used for the selection of distinct spectral regions comprising
  Hα emission, the main Wolf-Rayet and Of-type emission lines, and two
  continuum bands. The angular resolutions of the four reconstructed
  images are 0.080" (RG695 filter), 0.075" (658nm), 0.079" (545nm),
  and 0.174" (471nm). Two WN stars and two further stars with mild
  WN-type characteristics were found. A colour-magnitude diagram has
  been constructed. Isochrone fits taken from the new grids of stellar
  models from Schaller et al. (1992), yield a cluster age of about
  3.2Myr which is in accordance with the time-scale of Wolf-Rayet star
  evolution and places NGC 3603 in the Carina nebula phase of young
  stellar aggregates. The initial mass function IMF of HD 97950 has a
  fairly steep slope of x=1.59, in contrast to other Local Group giant
  HII regions and to starburst galaxies. HD 97950 has, compared to
  the cores of extragalactic HII regions, a similar, but high number
  ratio of WN to OB-type stars, indicating an instantaneous burst
  of star formation. HD 97950 hosts OB-type stars with a total mass
  of about 1000M<SUB>sun</SUB>_, corresponding to a mass density of
  ~10^5^M<SUB>sun</SUB>_/pc^3^. Thus, HD 97950 is even more compact than
  R136a, the core of the giant HII region 30 Dor in the LMC.

---------------------------------------------------------
Title: HST FOC Observations of Eta Carinae
Authors: Weigelt, G.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Crane, P.; Davidson, K.; Deharveng, J. M.; Disney,
   M. J.; Jakobsen, P.; Kamperman, T. M.; King, I. R.; Macchetto, F.;
   Mackay, C. D.; Paresce, F.; Baxter, D.; Greenfield, P.; Jedrzejewski,
   R.; Nota, A.; Sparks, W. B.
1995RMxAC...2...11W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Morphology and Kinematics of Eta Carinae
Authors: Duschl, W. J.; Hofmann, K. -H.; Rigaut, F.; Weigelt, G.
1995RMxAC...2...17D    Altcode: 1994astro.ph.10090D
  We present a high-resolution image of $\eta$~Car. Together with IR and
  visual observations of the central arcsecond, we use this to discuss the
  morphological structure of $\eta$~Car on the different length scales. We
  identify three different structural components: a bipolar outflow,
  an equatorial disk of streamers, and the speckle objects. We discuss
  models for the kinematics of the whole complex, and propose observations
  that could settle the question of the structure of $\eta$~Car.

---------------------------------------------------------
Title: HST/FOS Spectroscopy of ETA Carinae: The Star Itself, and
    Ejecta Within 0.3 Arcsec
Authors: Davidson, Kris; Ebbets, Dennis; Weigelt, Gerd; Humphreys,
   Roberta M.; Hajian, Arsen R.; Walborn, Nolan R.; Rosa, Michael
1995AJ....109.1784D    Altcode:
  Ground-based spectroscopy of η Car includes at least four components
  ABCD within a core region less than 0.4 across, and usually other
  material as well. Using the Hubble Space Telescope (HSTs) Faint Object
  Spectrograph (FOS), we have obtained separate data on component A and on
  B+C+D. Object A is found to be the central star; this is the fist time
  that the spectrum of the star η Car has been observed without a severe
  contamination by surrounding ejecta.The spectrum is that of a hot dense
  stellar wind with a mass-loss rate of the order of 10<SUP>-3</SUP> solar
  mass/yr. A more detailed nonspherical analysis of the data has not yet
  been done. Objects BCD appear to be ejecta rather than companion stars,
  since their combined spectrum has many forbidden lines with no sign
  of any stellar spectrum different from that of A. Exitation mechanisms
  in BCD are of great interest and deserve more theoretical study.

---------------------------------------------------------
Title: High-resolution speckle masking observations of Ceres and Vesta
Authors: Schertl, D.; Grieger, F.; Hofmann, K. -H.; Mauder, W.;
   Reinheimer, T.; Weghorn, H.; Weigelt, G.
1995P&SS...43..313S    Altcode:
  We present high-resolution speckle masking observations of the asteroids
  Ceres and Vesta and a detailed description of the image processing
  methods applied. The edges of the asteroid disks are reconstructed with
  high signal-to-noise ratio. On the surface of Ceres very weak surface
  features are visible. The Vesta image shows high-contrast features. At
  the time of the observations, Ceres had an apparent angular diameter
  of 0.74 arcsec (905 km) and Vesta 0.45 arcsec × 0.44 arcsec (539 km ×
  519 km). For the reconstruction of the asteroid images it was necessary
  to develop a new method for the compensation of the four-dimensional
  photon bias in the average bispectrum of the speckle interferograms. The
  dependence of the reconstruction on the photon bias compensation and
  on the compensation of the speckle interferometry transfer function
  is investigated to study the robustness of the method.

---------------------------------------------------------
Title: Faint Object Camera Imaging and Spectroscopy of NGC 4151
Authors: Boksenberg, A.; Catchpole, R. M.; Macchetto, F.; Albrecht,
   R.; Barbieri, C.; Blades, J. C.; Crane, P.; Deharveng, J. M.; Disney,
   M. J.; Jakobsen, P.; Kampermann, T. M.; King, I. R.; Mackay, C. D.;
   Paresce, F.; Weigelt, G.; Baxter, D.; Greenfield, P.; Jedrzejewski,
   R.; Nota, A.; Sparks, W. B.
1995ApJ...440..151B    Altcode:
  We describe ultraviolet and optical imaging and spectroscopy within the
  central few arcseconds of the Seyfert galaxy NGC 4151, obtained with
  the Faint Object Camera on the Hubble Space Telescope. A narrowband
  image including [O III] λ5007 shows a bright nucleus centered on a
  complex biconical structure having apparent opening angle ~65^deg^ and
  axis at position angle along 65^deg^-245^deg^; images in bands including
  Lyman-α and C IV λ1550 and in the optical continuum near 5500 A, show
  only the bright nucleus. In an off-nuclear optical long-slit spectrum
  we find a high and a low radial velocity component within the narrow
  emission lines. We identify the low-velocity component with the bright,
  extended, knotty structure within the cones, and the high- velocity
  component with more confined diffuse emission. Also present are strong
  continuum emission and broad Balmer emission line components, which
  we attribute to the extended point spread function arising from the
  intense nuclear emission. Adopting the geometry pointed out by Pedlar
  et al. (1993) to explain the observed misalignment of the radio jets
  and the main optical structure we model an ionizing radiation bicone,
  originating within a galactic disk, with apex at the active nucleus
  and axis centered on the extended radio jets. We confirm that through
  density bounding the gross spatial structure of the emission line
  region can be reproduced with a wide opening angle that includes the
  line of sight, consistent with the presence of a simple opaque torus
  allowing direct view of the nucleus. In particular, our modelling
  reproduces the observed decrease in position angle with distance from
  the nucleus, progressing initially from the direction of the extended
  radio jet, through our optical structure, and on to the extended
  narrow-line region. We explore the kinematics of the narrow-line low-
  and high-velocity components on the basis of our spectroscopy and
  adopted model structure. For the low-velocity system both Keplerian
  rotation and isotropic outflow (or outflow confined to the ionizing
  cone) give plausible correspondence with our data. If interpreted as
  rotation we show consistency with earlier determinations indicating
  a central mass concentration of about 10^9^ M_sun_. The high-velocity
  system kinematically conforms to radial outflow within the galaxy disk,
  although this does not well reproduce the observed intensity structure.

---------------------------------------------------------
Title: Resolution and evolution of the core of the giant HII region
    NOC 3603
Authors: Hofmann, K. -H.; Weigelt, G.; Seggewiss, W.
1995IAUS..163...43H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Diffraction-limited speckle masking observations of the Mira
    variable R Cas with the 6-m SAO telescope
Authors: Hofmann, K. -H.; Balega, Y.; Scholz, M.; Weigelt, G.
1995IAUS..176P..45H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Imaging with the VLT Interferometer in the multi-speckle mode.
Authors: Reinheimer, T.; Hofmann, K. -H.; Schöller, M.; Weigelt, G.
1995svlt.confP..81R    Altcode:
  The authors present computer and laboratory experiments of
  interferometric imaging in the multi-speckle mode with arrays similar
  to the ESO Very Large Telescope Interferometer. The multi-speckle
  long-baseline interferograms consist of many speckles with interference
  fringes in each speckle. Diffraction-limited images with about
  1 milli-arcsec resolution were reconstructed by the speckle masking
  method (triple correlation or bispectral processing) and the iterative
  building block method.

---------------------------------------------------------
Title: High-Resolution Imaging with the VLT at Optical Wavelengths
Authors: Weigelt, G.
1995svlt.conf..415W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Limiting magnitude of speckle masking observations with
    VLT telescopes.
Authors: Hofmann, K. -H.; Reinheimer, T.; Weigelt, G.
1995svlt.confP..87H    Altcode:
  The authors present computer simulations of high-resolution speckle
  imaging with the ESO VLT 8 m telescope. The experiments show that
  in nights of good seeing with r<SUB>0</SUB> = 26 cm (≡0.4″
  diffraction-limited (0.014″at λ = 500 nm) images of 17<SUP>m</SUP>
  objects can be reconstructed by speckle masking plus building
  block method from 100000 speckle interferograms recorded in 40 min
  observing time. Additionally, a SNR comparison of actual astronomical
  observations with computer simulations shows that computer simulations
  yield very useful predictions of the quality of astronomical speckle
  reconstruction.

---------------------------------------------------------
Title: Diffraction-limited images of the Mira-type variable R Cas.
Authors: Hofmann, K. -H.; Balega, Y. Y.; Scholz, M.; Shkhagosheva,
   Z. U.; Weigelt, G.
1995BSAO...39...59H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Preliminary design document for the Visible High Angular
    Resolution Camera (VHARC).
Authors: Weigelt, G.
1994fvlt.conf...77W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Speckle masking observations of the young binary Z Canis
    Majoris.
Authors: Barth, W.; Weigelt, G.; Zinnecker, H.
1994A&A...291..500B    Altcode:
  We present the first speckle masking observations of the pre-main
  sequence binary system Z CMa at optical wavelengths (narrow-band
  R filter and edge filter RG 610). The diffraction-limited images
  confirm that Z CMa is a binary with a separation of 0.100+/-0.008"
  at position angle 305+/-2deg. The intensity ratio of the stars is
  7.2 for the narrow-band R filter and 7.7 for the RG610 filter. The
  south-eastern component is the brighter component (i.e. the FU Ori
  object), in agreement with the results of Koresko et al. (1991)
  based on near-infrared speckle data. However, our optical detection
  of the north-western component (the infrared companion) would
  not have been expected according to Koresko et al.'s analysis. One
  possible explanation could be scattered light. This agrees with recent
  polarimetric evidence from Whitney et al. (1993) that scattering plays
  a role in seeing the infrared companion. We discuss the possibility
  that both components of the Z CMa system may be FU Ori objects.

---------------------------------------------------------
Title: The W Ursae Majoris system ER Ori: a multiple star.
Authors: Goecking, K. -D.; Duerbeck, H. W.; Plewa, T.; Kaluzny, J.;
   Schertl, D.; Weigelt, G.; Flin, P.
1994A&A...289..827G    Altcode:
  308 photoelectric and 29 spectroscopic observations of the W-type W UMa
  system ER Ori are presented and analyzed. A cross-correlation method
  was used to determine the radial velocity curves. The existence of a
  third body was established by its presence in the cross-correlation
  function. High-resolution speckle masking observations show that
  this companion has a separation of 0.19" from the W UMa system,
  is about 2.3mag fainter than the binary at maximum light, and is
  very likely physically connected to the system. The (O-C)-diagram
  of minimum times was re-analyzed. The light time effect caused by
  the third body has only a marginal influence, indicating that its
  orbital plane has an inclination close to 0deg. The presence of the
  companion was taken into account in the synthetic light and radial
  velocity curve study. This combined solution yields a mass ratio of
  q=0.64 +/-0.08. The derived masses and radii indicate that ER Ori is
  a slightly evolved W UMa system.

---------------------------------------------------------
Title: The massive star content of the blue dwarf galaxy IZw 36 from
    Faint Object Camera observations
Authors: Deharveng, J. -M.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Crane, P.; Disney, M. J.; Jakobsen, P.; Kamperman,
   T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.; Paresce, F.; Weigelt,
   G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.; Sparks,
   W. B.
1994A&A...288..413D    Altcode:
  We have observed the blue dwarf galaxy IZw 36 with the f/96 relay of
  the Faint Object Camera and have for the first time resolved massive
  stars, using the broad band filters F175W, F342W, F430W and F480LP. We
  have measured the fluxes of 143 of these objects and studied their
  characteristics in color-magnitude diagrams. A few stars may be red
  supergiants but their contribution to the integrated light is less than
  5% in the F430W filter. The F175W-F430W color of the integrated stellar
  population is redder than expected from the current burst of star
  formation, suggesting therefore the presence of an older and unresolved
  underlying population. The ultraviolet measurements combined with
  synthetic photometry calculations allow us to place the massive stars
  in a bolometric magnitude vs. temperature diagram. In this diagram,
  the stars are compared to evolutionary tracks for different stellar
  masses. The current burst probably has an age less than 12 Myr. We
  infer an Initial Mass Function, with a power-law slope in the range
  -1.7 to -2.6 for masses M&gt;20M<SUB>sun</SUB>_. This is consistent
  with most of the values reported for sites of star formation in the
  Galaxy and the Magellanic Clouds and does not support the view of an
  IMF flattening at low metallicity.

---------------------------------------------------------
Title: HST observations of the core of globular cluster NGC 6397
Authors: Burgarella, D.; Paresce, F.; Meylan, G.; King, I. R.;
   Greenfield, P.; Baxter, D.; Jedrzejewski, R.; Nota, A.; Albrecht, R.;
   Barbieri, C.; Blades, J. C.; Boksenberg, A.; Crane, P.; Deharveng,
   J. M.; Disney, M. J.; Jakobsen, P.; Kamperman, T. M.; Macchetto, F.;
   Mackay, C. D.; Weigelt, G.
1994A&A...287..769B    Altcode:
  The core of the nearby and very concentrated globular cluster NGC
  6397 has been imaged through the f/96-F140W, f/48-F140W, f/96-F210M,
  and f/48-F220W ultraviolet filters of the Faint Object Camera on board
  the Hubble Space Telescope down to an ultraviolet limiting magnitude
  of ~19. The most interesting objects in the field of view are six
  very bright, centrally concentrated, blue stragglers observed for the
  first time in the UV. Using these and other data from ground-based
  observations, we have been able to deduce from a comparison with
  Kurucz's atmosphere models, temperatures of ~10000 K and masses of
  ~1.6M<SUB>sun</SUB>_ for the four brightest ones, which is remarkably
  close to twice the turn-off mass of NGC 6397. This finding supports the
  idea that two-star mechanisms (collisions, mergers) are at the origin of
  the blue stragglers in the core of NGC 6397. Since the central density
  is very high, collisions between main sequence stars are frequent,
  therefore providing the best formation mechanism. We have computed
  the number of such collisions in the core of NGC 6397 and found it to
  be of the same order as the number of bright blue stragglers observed
  there. Thanks to the HST resolution, we have also been able to resolve
  one object, previously classified as a yellow straggler, into a blend
  of a blue straggler and three redder stars.

---------------------------------------------------------
Title: High resolution optical images of the starburst ring around
    the Seyfert nucleus of NGC7469
Authors: Mauder, W.; Weigelt, G.; Appenzeller, I.; Wagner, S. J.
1994A&A...285...44M    Altcode:
  We present speckle masking observations of the core of the Seyfert plus
  circumnuclear starburst hybrid galaxy NGC7469. High-resolution images
  were obtained in three different wavelength bands. The images show a
  ring-shaped emission region with a radius of about 1".3 (~ 400 pc at a
  distance of 65 Mpc) consisting of about a dozen individual cloud-like
  features. Near the center of the ring we find a bright unresolved source
  superimposed on an extended and elongated structure extending about +/-
  0".4 towards the PAs 50deg and 230deg.

---------------------------------------------------------
Title: Optical interferometry in the multi-speckle mode
Authors: Reinheimer, T.; Hofmann, K. -H.; Weigelt, G.
1994IAUS..158..373R    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Speckle detection of the Z CMa infrared companion at optical
    wavelengths
Authors: Weigelt, G.; Zinnecker, H.
1994ASPC...62..323W    Altcode: 1994nesh.conf..323W
  No abstract at ADS

---------------------------------------------------------
Title: Interferometric imaging with arrays of large optical telescopes
    in the multi-speckle mode
Authors: Reinheimer, T.; Hofmann, K. -H.; Weigelt, G.
1993A&A...279..322R    Altcode:
  We present a method for interferometric imaging with arrays of
  large optical telescopes in the multi-speckle mode. The raw data
  were produced by simulating light propagation in the atmosphere,
  various pupil functions similar to the pupil function of the European
  Southern Observatory (ESO) Very Large Telescope Interferometer (four
  8-m telescopes), earth rotation, and photon noise. The generated
  data sets consist of up to 48,000 interferograms per experiment
  with 100 to 80,000 photoevents per interferogram. Since a Fried
  parameter r<SUB>0</SUB> smaller than the telescope diameter was chosen,
  multi-speckle long-baseline interferograms were obtained which consist
  of many speckles with interference fringes in each speckle. This
  experimental condition is called the multi-speckle mode, which is
  typical for interferometric imaging with large telescopes at optical
  wavelengths. From the various data sets diffraction-limited images were
  reconstructed by the speckle masking method (bispectral analysis) and
  the iterative building block method. Image reconstruction is possible
  without the use of non-redundant masks since speckle masking is a
  generalization of phase closure imaging to highly redundant arrays (or
  large optical telescopes). The reconstructed images show the dependence
  of the signal-to-noise ratio on photon noise and other parameters. The
  proposed method can also be applied to radio interferometric data
  (especially, mm- or or sub-mm-observations).

---------------------------------------------------------
Title: Faint Object Camera Far-Ultraviolet Objective Prism
    Observations of 12 Z &gt; 3 Quasars
Authors: Jakobsen, P.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Crane, P.; Deharveng, J. M.; Disney, M. J.; Kamperman,
   T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.; Paresce, F.; Weigelt,
   G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.; Sparks,
   W. B.
1993ApJ...417..528J    Altcode:
  We present the first results of an exploratory objective prism survey
  of the far-ultraviolet (λλ1200-1800) spectra of high-redshift
  quasars obtained with the Faint Object Camera on-board the Hubble
  Space Telescope. The prime objective of this survey is to identify
  one or more candidates among the known quasars at Ζ<SUB>em</SUB>
  &gt; 3 with sufficient flux at far-ultraviolet wavelengths to enable
  detailed follow-up observations of redshifted intergalactic He II λ304
  absorption using the HST grating spectrographs FOC prism observations
  of 12 prime candidates selected for redshift (Ζ<SUB>em</SUB>
  ≃ 3.03-3.66), brightness (V ≲ 18.5) and the appearance of their
  optical absorption spectra are presented and discussed. As anticipated
  beforehand, cumulative neutral hydrogen Lyman continuum absorption from
  the various classes of intervening absorption systems presents a serious
  obstacle for observing high redshift quasars at extreme ultraviolet
  rest energies. At our limiting sensitivity of F<SUB>λ</SUB> ≃ 2-4 ×
  10<SUP>-16</SUP> ergs s<SUP>-1</SUP> cm<SUP>-2</SUP> Å<SUP>-1</SUP>,
  10 of the 12 objects observed show no far-UV flux shortward of λ1800
  observed wavelength. Two objects, Q0114-089 (UM 670; Ζ<SUB>em</SUB> ≃
  3.16) and Q1442+102 (OQ 172; Ζ<SUB>em</SUB> = 3.53) are detected, but
  only down to 330 Å and 345 Å rest wavelength. No object is reliably
  detected at emitted He II λ304. The severity of the cumulative Lyman
  continuum absorption is, however, such that these preliminary findings
  are still statistically consistent with the hypothesis that luminous
  quasars are intrinsically bright at extreme ultraviolet energies at
  flux levels comparable to those suggested by extrapolation of the
  power law continua seen at longer wavelengths. A larger number of
  high-redshift quasars need to be observed in the far-UV before the
  prospects for observing intergalactic He II λ304 absorption with HST
  can be fully appraised.

---------------------------------------------------------
Title: High Resolution Imaging of Galaxy Cores
Authors: Crane, P.; Stiavelli, M.; King, I. R.; Deharveng, J. M.;
   Albrecht, R.; Barbieri, C.; Blades, J. C.; Boksenberg, A.; Disney,
   M. J.; Jakobsen, P.; Kamperman, T. M.; Machetto, F.; Mackay, C. D.;
   Paresce, F.; Weigelt, G.; Baxter, D.; Greenfield, P.; Jedrzejewski,
   R.; Nota, A.; Sparks, W. B.
1993AJ....106.1371C    Altcode:
  Surface photometry data obtained with the Faint Object Camera of the
  Hubble Space Telescope in the cores of ten galaxies is presented. The
  major results are: (i) none of the galaxies show truly "isothermal"
  cores, (ii) galaxies with nuclear activity show very similar light
  profiles, (iii) all objects show central mass densities &gt; 10^3^M_sun_
  pc^-3^, (iv) four of the galaxies (M87, NGC 3862, NGC 4594, NGC 6251)
  show evidence for exceptional nuclear mass concentrations.

---------------------------------------------------------
Title: Iterative image reconstruction from the bispectrum.
Authors: Hofmann, K. -H.; Weigelt, G.
1993A&A...278..328H    Altcode:
  We present iterative least-squares methods for reconstructing
  diffraction-limited images from the object bispectrum obtained
  by speckle masking (bispectral analysis) and from other Fourier
  data. The theory and first astronomical speckle masking applications
  are described. An approximation of the least-squares integral is derived
  which makes it possible to calculate easily thousands of iterations with
  images of 512x512 pixels. Various extensions of the basic method to the
  simultaneous treatment of many object pixels are discussed. Finally,
  applications of modified versions of the method to the Knox-Thompson
  method, shearing interferometry, deconvolution of aberrated images,
  optical long-baseline interferometry, radio interferometry (especially,
  mm- and submm-interferometry) and other methods are discussed.

---------------------------------------------------------
Title: SISTERS: a space interferometer for the search for terrestrial
    exo-planets by rotation shearing
Authors: Bely, Pierre Y.; Burrows, Christopher J.; Roddier, Francois
   J.; Weigelt, Gerd; Bernasconi, M. C.
1993SPIE.1947...73B    Altcode:
  A concept for a space-based interferometer dedicated to the detection
  of extrasolar earth-like planets is presented. Detection is done in
  the near infrared (10 micrometers ) where the expected star to planet
  flux ratio is down to 10(superscript 6) compared to 10(superscript 10)
  in the visible. The longer wavelength also makes is easier to avoid
  light scatter due to optics micro-roughness. Parent star cancellation is
  obtained with a rotation shearing interferometer working at its null on
  axis. The interferometer is of the Fizeau configuration with an aperture
  composed of twelve 1.2 meter mirrors on a 20 meter ring. This size,
  which corresponds to a resolving power of 0.05 arcsecond, allows for
  the investigation of about 30 candidate stars. The interferometer is
  supported by a chemically rigidized structure deployed by inflation. All
  optical elements are passively cooled to about 70 degrees Kelvin to
  reduce the instrumental infrared background. The spacecraft is located
  at the second Lagrangian point of the earth-sun system in order to
  minimize attitude control and baffling requirements.

---------------------------------------------------------
Title: HARDI-2: a high-angular-resolution deployable interferometer
    for UV observations of nearby stars
Authors: Bely, Pierre Y.; Burrows, Christopher J.; Lamers, H. J.;
   Roddier, Francois J.; Weigelt, Gerd
1993SPIE.1947...84B    Altcode:
  We describe a concept for an orbiting astronomical observatory which
  will allow high spatial resolution far-UV observations of nearby
  stars. The scientific goal is to study stellar activity and mass
  loss using imaging and spectroscopy. Specific areas of study include
  stellar surfaces, large scale magnetohydroynamic effects, interacting
  binaries and stellar winds. The instrument is an interferometer with
  an 8-meter baseline providing 3 milliarcseconds resolution at 1200
  Angstrom. The interferometer configuration is of the Fizeau type which
  affords excellent ultraviolet throughput because of the small number
  of reflections. The collecting aperture is composed of six 0.6 meter
  diameter elements distributed on a circle in such a way as lead to near
  uniform u-v plan coverage when the instrument is rotated around the
  line of sight. This will lead to excellent imaging capabilities. The
  interferometer individual channels are kept coaligned and coherent
  using the light of a nearby guide star. The supporting structure is
  folded for launch and automatically deployed once on orbit. To minimize
  disturbance torques and thermal shocks, the spacecraft will be located
  on a high earth orbit or at the Lagrangian point.

---------------------------------------------------------
Title: Detection of an Ultraviolet and Visible Counterpart of the
    NGC 6624 X-Ray Burster
Authors: King, I. R.; Stanford, S. A.; Albrecht, R.; Barbieri, C.;
   Blades, J. C.; Boksenberg, A.; Crane, P.; Disney, M. J.; Deharveng,
   J. M.; Jakobsen, P.; Kamperman, T. M.; Macchetto, F.; Mackay, C. D.;
   Paresce, F.; Weigelt, G.; Baxter, D.; Greenfield, P.; Jedrzejewski,
   R.; Nota, A.; Sparks, W. B.; Sosin, C.
1993ApJ...413L.117K    Altcode:
  We have detected, in images taken with the HST FOC, the UV and optical
  counterpart of the X-ray source 4U 1820-30 in the globular cluster
  NGC 6624. Astrometric measurements place this object 2 sigma from
  the X-ray position of 4U 1820-30. The source dominates a far-UV FOC
  image and has the same flux at 1400 A as was seen through the large
  IUE aperture by Rich et al. (1993). It has a B magnitude of 18.7 but
  is not detected in V. It is 0.66 arcsec from the center of NGC 6624,
  a fact that may change the interpretation of the P-average of the 11
  minute binary orbit. The flux drops between 1400 and 4300 A at a rate
  that is nearly as steep as that of a Rayleigh-Jeans curve. The flux is
  far too large to come from the neutron star directly but could accord
  with radiation from a heated accretion disk and/or the heated side of
  the companion star.

---------------------------------------------------------
Title: Astronomical speckle masking, speckle spectroscopy, and
    long-baseline interferometry
Authors: Hofmann, K. -H.; Weigelt, G.
1993wprm.conf..188H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Interferometric Imaging with Arrays of Large Optical Telescopes
    in the Multispeckle Mode
Authors: Reinheimer, T.; Hofmann, K. -H.; Schöller, M.; Weigelt, G.
1993SPIE.1983..197R    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Iterative Image Reconstruction from the Bispectrum of
    Astronomical Speckle Interferograms
Authors: Hofmann, K. -H.; Weigelt, G.
1993SPIE.1983..203H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Compensation of Photon Noise Bias Terms in Speckle Masking
    and Astronomical Applications
Authors: Mauder, W.; Hofmann, K. -H.; Weigelt, G.; Zeidler, P.
1993SPIE.1983..331M    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Compact subarcsec structures of the double nucleus of NGC
    6240 revealed with HST.
Authors: Barbieri, C.; Rafanelli, P.; Schulz, H.; Albrecht, R.;
   Blades, J. C.; Boksenberg, A.; Crane, P.; Deharveng, J. M.; Disney,
   M. J.; Jakobsen, P.; Kamperman, T. M.; King, I. R.; Macchetto, F.;
   Mackay, C. D.; Paresce, F.; Weigelt, G.; Baxter, D.; Greenfield, P.;
   Jedrzewski, R.; Nota, A.; Sparks, W. B.
1993A&A...273....1B    Altcode:
  We have used the Faint Object Camera on board of the Hubble Space
  Telescope to obtain a high spatial resolution ultraviolet image of the
  central region of NGC 6240. This image resolves the well known double
  nucleus of the galaxy into several compact knots with sizes 0.1"-0.2"
  (about 45-90 pc for H_0_ = 75 km s^-1^Mpc^-1^) and extended low surface
  brightness emission. The northern (fainter) component B of the double
  nucleus of the galaxy contains only one bright compact source while the
  southern (brighter) component A consists of a string of bright knots
  plus more conspicuous extended emission than B. Evidence is presented
  that an appreciable fraction (if not all) of the compact emission is
  continuum light. The distance between the compact sources in A and B
  exceeds the distance between the corresponding 2 cm radio sources by
  ~0.5". A comparison with precise optical coordinates shows that the
  compact sources do not coincide with the radio sources. Extinction
  by molecular clouds between A and B might explain why there are no
  counterparts of the radio sources visible at shorter wavelengths. The
  presence of an elliptical bubble of size ~190 x 150 pc within
  an emitting region on the southwest of A could be due to multiple
  supernova explosions.

---------------------------------------------------------
Title: A study of the W UMa system ER Ori, a triple star.
Authors: Goecking, K. -D.; Duerbeck, H. W.; Plewa, T.; Kałuzny, J.;
   Schertl, D.; Weigelt, G.; Flin, P.
1993AGAb....9..139G    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Landolt-Börnstein: Numerical Data and Functional Relationships
    in Science and Technology - New Series " Gruppe/Group 6 Astronomy and
Astrophysics " Volume 3 Voigt: Astronomy and Astrophysics. Extension
    and Supplement to Volume 2 " Instruments, Methods, Solar System
Authors: Baars, J. W.; Beer, H.; Durrant, C. J.; Graser, U.; Guinot,
   B.; Hoffmann, M.; Hopp, U.; Ip, W. -H.; Jessberger, E. K.; Klecker, B.;
   Lemke, D.; Meisenheimer, K.; Möbius, E.; Palme, H.; Rahe, J.; Röser,
   H. J.; Schubart, J.; Schwenn, R.; Solf, J.; Soltau, G.; Staubert,
   R.; Stewart, R.; Trümper, J.; Vanysek, V.; Weigelt, G.; Wolf, R.
1993lbor.book.....B    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Discovery of an Optical Synchrotron Jet in 3C 264
Authors: Crane, P.; Peletier, R.; Baxter, D.; Sparks, W. B.;
   Albrecht, R.; Barbieri, C.; Blades, J. C.; Boksenberg, A.; Deharveng,
   J. M.; Disney, M. J.; Jakobsen, P.; Kamperman, T. M.; King, I. R.;
   Macchetto, F.; Mackay, C. D.; Paresce, F.; Weigelt, G.; Greenfield,
   P.; Jedrzejewski, R.; Nota, A.
1993ApJ...402L..37C    Altcode:
  Observations with the Faint Object Camera on board the Hubble Space
  Telescope have revealed a new optical jet in the core of the elliptical
  galaxy NGC 3862 (3C 264). Morphologically, this jet is similar to
  the synchrotron jets seen in other galaxies, as it shows knots and
  bifurcations. The optical spectral index [-d log I(v)/d log v = α =
  1.4] is also similar to that found in other jets. Thus, the nucleus
  of NGC 3862 appears to contain the fifth known example of an optical
  synchrotron jet. Since NGC 3862 is a typical radio-loud elliptical
  galaxy, it seems likely that many nonthermal jets found in the radio
  continuum may also have optical counterparts.

---------------------------------------------------------
Title: SISTERS: a space interferometer for the search for terrestrial
    exo-planets by rotation shearing.
Authors: Bely, P. -Y.; Burrows, C. J.; Roddier, F.; Weigelt, G.;
   Bernasconi, Marco C.
1992ESASP.354...99B    Altcode: 1992tsbi.rept...99B
  A concept for a space-based interferometer dedicated to the detection
  of extrasolar earth-like planets is presented. Detection is done in the
  near infrared (10 μm) where the expected star to planet flux ratio is
  down to 10<SUP>6</SUP> compared to 10<SUP>10</SUP> in the visible. The
  longer wavelength also makes it easier to avoid light scatter due to
  optics micro-roughness. Parent star cancellation is obtained with a
  rotation shearing interferometer working at its null on axis.

---------------------------------------------------------
Title: HARDI: a high angular resolution deployable interferometer.
Authors: Bely, P. -Y.; Burrows, C. J.; Roddier, F.; Weigelt, G.
1992ESASP.354..235B    Altcode: 1992tsbi.rept..235B
  The authors describe a proposed orbiting interferometer covering
  the UV, visible and near-IR spectral ranges. With a 6-meter baseline
  and a collecting area equivalent to about a 1.4 meter diameter full
  aperture, this instrument is intended to offer significant improvements
  in resolution over the Hubble Space Telescope, and complement the new
  generation of ground-based interferometers with much better limiting
  magnitude and spectral coverage.

---------------------------------------------------------
Title: High-resolution imaging of solar system objects with space
    telescopes and ground-based telescopes
Authors: Schertl, D.; Weigelt, G.
1992AdSpR..12k.157S    Altcode: 1992AdSpR..12..157S
  The atmosphere of the earth restricts the resolution of conventional
  astronomical imaging with ground-based telescopes to about 0.5
  arcsec. Much higher resolution can be obtained by interferometric
  imaging with space telescopes or large ground-based telescopes. We
  will discuss the following methods: (a)High-resolution imaging with
  ground-based telescopes and interferometers. We will discuss the
  principle and astronomical applications of speckle interferometry, the
  Knox-Thompson method, the nonredundant mask technique, speckle masking,
  speckle spectroscopy and optical long-baseline interferometry. For
  example, speckle imaging with a 3.6-m telescope yields a resolution of
  0.03 arcsec. We will show speckle masking observations of NGC 3603, the
  Seyfert galaxy NGC 1068, and of the asteroids Ceres and Vesta. Optical
  long-baseline interferometry with the ESO Very Large Telescope will
  yield the fantastic resolution of 0.001 arcsec. The limiting magnitude
  of speckle imaging is about 18th magnitude. <P />(b)High-resolution
  imaging with the Hubble Space Telescope. We will discuss the principle
  of the roll deconvolution technique. At λ ~ 140 nm roll deconvolution
  imaging with the HST will yield a resolution of about 0.015 arcsec.

---------------------------------------------------------
Title: HARDI: A high angular resolution deployable interferometer
    for space
Authors: Bely, Pierre Y.; Burrows, Christopher; Roddier, Francois;
   Weigelt, Gerd
1992NASCP3066..114B    Altcode: 1992loui.rept..114B
  We describe here a proposed orbiting interferometer covering the
  UV, visible, and near-IR spectral ranges. With a 6-m baseline and a
  collecting area equivalent to about a 1.4 m diameter full aperture,
  this instrument will offer significant improvements in resolution
  over the Hubble Space Telescope, and complement the new generation
  of ground-based interferometers with much better limiting magnitude
  and spectral coverage. On the other hand, it has been designed as a
  considerably less ambitious project (one launch) than other current
  proposals. We believe that this concept is feasible given current
  technological capabilities, yet would serve to prove the concepts
  necessary for the much larger systems that must eventually be flown. The
  interferometer is of the Fizeau type. It therefore has a much larger
  field (for guiding) better UV throughout (only 4 surfaces) than phased
  arrays. Optimize aperture configurations and ideas for the cophasing and
  coalignment system are presented. The interferometer would be placed
  in a geosynchronous or sunsynchronous orbit to minimize thermal and
  mechanical disturbances and to maximize observing efficiency.

---------------------------------------------------------
Title: Imaging of Four Planetary Nebulae in the Magellanic Clouds
    Using the Hubble Space Telescope Faint Object Camera
Authors: Blades, J. C.; Barlow, M. J.; Albrecht, R.; Barbieri, C.;
   Boksenberg, A.; Crane, P.; Deharveng, J. M.; Disney, M. J.; Jakobsen,
   P.; Kamperman, T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.;
   Paresce, F.; Weigelt, G.; Baxter, D.; Greenfield, P.; Jedrzejewski,
   R.; Nota, A.; Osmer, S.; Sparks, W. B.
1992ApJ...398L..41B    Altcode:
  Using the Faint Object Camera on-board the Hubble Space Telescope,
  we have obtained images of four planetary nebulae (PNe) in the
  Magellanic Clouds, namely N2 and N5 in the SMC and N66 and N201 in the
  LMC. Each nebula was imaged through two narrow-band filters isolating
  [O III] λ5007 and Hβ, for a nominal exposure time of 1000 s in
  each filter. Significant detail is evident on the raw images and,
  after deconvolution using the Richardson-Lucy algorithm, structures
  as small as 0.06" are easily discernible. In [O III], SMC N5 shows a
  circular ring structure, with a peak-to-peak diameter of 0.26" and a
  FWHM of 0.35", while SMC N2 shows an elliptical ring structure with
  a peak-to-peak diameter of 0.26" x 0.21" (FWHM 0.40" x 0.35"). The
  expansion ages corresponding to the observed structures in SMC N2 and
  N5 are of the order of 3000 yr. Such low ages appear more easy to
  reconcile with helium-burning rather than hydrogen-burning central
  star evolutionary tracks. LMC N201 is very compact, with a FWHM of
  0.21" in Hβ. The Type I PN LMC N66 is a multipolar nebula, with the
  brightest part having an extent of about 2" and with fainter structures
  extending over 4". The [O III] image reveals structures unprecedented
  for a planetary nebula, with several bright knots and faint loops
  visible outside the two main bright lobes.

---------------------------------------------------------
Title: Speckle masking observations of the Seyfert galaxy NGC 1386.
Authors: Mauder, W.; Appenzeller, I.; Hofmann, K. -H.; Wagner, S. J.;
   Weigelt, G.; Zeidler, P.
1992A&A...264L...9M    Altcode:
  We report high-resolution speckle masking observations of the Seyfert
  galaxy NGC 1386. The Hα and RG 630 reconstructions show that the
  spatially extended NLR of NGC 1386 consists of several knots distributed
  in an elongated structure extending over more than 3". Some of the knots
  are slightly resolved. The linear dimensions of these clouds ( &gt;
  15 pc) are comparable to the substructure found in NGC 1068. The cone
  morphology suggests that the radiation characteristic of the nucleus is
  asymmetric probably due to dust obscuration. The radial variation of the
  emissivity measure implies a non-monotonic gradient of the gas density.

---------------------------------------------------------
Title: Preliminary Analysis of an Ultraviolet Hubble Space Telescope
    Faint Object Camera Image of the Center of M31
Authors: King, I. R.; Deharveng, J. M.; Albrecht, R.; Barbieri, C.;
   Blades, J. C.; Boksenberg, A.; Crane, P.; Disney, M. J.; Jakobsen, P.;
   Kamperman, T. M.; Macchetto, F.; Mackay, C. D.; Paresce, F.; Weigelt,
   G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.; Sparks,
   W. B.; Stanford, S. A.
1992ApJ...397L..35K    Altcode:
  A 5161 s exposure was taken with the FOC on the central 44" of M31,
  through a filter centered at 1750 A. Much of the light is redleak
  from visible wavelengths, but nearly half of it is genuine UV. The
  image shows the same central peak found earlier by Stratoscope, with
  a somewhat steeper dropoff outside that peak. More than 100 individual
  objects are seen, some pointlike and some slightly extended. We identify
  them as post-asymptotic giant branch stars, some of them surrounded
  by a contribution from their accompanying planetary nebulae. These
  objects contribute almost a fifth of the total UV light, but fall far
  short of accounting for all of it. We suggest that the remainder may
  result from the corresponding evolutionary tracks in a population more
  metal-rich than solar.

---------------------------------------------------------
Title: Faint object camera observations of M 87 : the jet and nucleus.
Authors: Boksenberg, A.; Macchetto, F.; Albrecht, R.; Barbieri, C.;
   Blades, J. C.; Crane, P.; Deharveng, J. M.; Disney, M. J.; Jakobsen,
   P.; Kamperman, T. M.; King, I. R.; Mackay, C. D.; Paresce, F.; Weigelt,
   G.; Baxter, D.; Greenfield, P.; Jedrzjewski, R.; Nota, A.; Sparks,
   W. B.
1992A&A...261..393B    Altcode:
  Ultraviolet and optical images of the central region and jet of
  the nearby elliptical galaxy M87 have been obtained with ~0.1
  arcsec resolution in several spectral bands with the Faint Object
  Camera (FOC) on the Hubble Space Telescope, including polarisation
  images. Deconvolution enhances the contrast of the complex structure
  and filamentary patterns in the jet already evident in the aberrated
  images. Morphologically there is close similarity between the FOC images
  of the extended jet and the best 2 cm radio maps obtained at similar
  resolution, and the magnetic field vectors from the ultraviolet and
  radio polarimetric data also correspond well. We observe structure in
  the inner jet within a few tenths arcsec of the nucleus which also has
  been well studied at radio wavelengths. Our ultraviolet and optical
  photometry of regions along the jet shows little variation in spectral
  index from the value 1.0 between markedly different regions and no
  trend to a steepening spectrum with distance along the jet. The new
  results strongly support the model for the jet in which there is no in
  situ particle acceleration localized at strong shocks but electrons
  accelerated at the nucleus propagate with low dissipation along the
  inside of the jet and the observed synchrotron emission occurs primarily
  in a boundary layer between the jet and its external medium. We observe
  no evidence for a central star cluster. In the nucleus, our data show
  the presence of an unresolved bright continuum source of optical to
  ultraviolet spectral index ~1.4 and size &lt;= 0.6 pc core radius (at
  distance 16 Mpc), and an [O III]-emitting region of ~1.6 pc core radius.

---------------------------------------------------------
Title: Report on the Lunar Interferometry Study Team (LIST)
    activities.
Authors: Dainty, J. C.; Faucherre, M.; Greenaway, A. H.; Harris, A. I.;
   Labeyrie, A.; Noordam, J. E.; Weigelt, G. P.; Beckers, J.; Lequeux,
   J.; Fridlund, C. M.; Hawkyard, A.; Roussel, P. H.; Volonté, S.
1992ESASP.344..259D    Altcode: 1992spai.rept..259D
  During the first half of 1991, the Lunar Interferometry Study Team
  (LIST) produced an Interim Report outlining a possible strategy for
  the development of a lunar interferometry programme. The formulation
  of an overall strategy for ESA towards lunar interferometry requires
  further consideration before firm recommendations can be made. However,
  it is clear at this early stage that there are three principal
  elements in that strategy. (1) ESA should commence conceptual
  studies for interferometers in readiness for their location on the
  Moon in (a) the UV/visible/IR and (b) the sub-millimetre region. (2)
  Considering the scientific benefit, technical readiness and realistic
  timescale of a lunar interferometer, ESA should plan for at least one
  "precursor" interferometer missions in space. (3) ESA should identify
  key technologies of crucial importance to space-based interferometry
  in general and lunar interferometry in particular, and support their
  development by a variety of routes.

---------------------------------------------------------
Title: Towards an ESA strategy for optical interferometry in
    space. Recommendations of the ESA Space Interferometry Study Team
    (SIST).
Authors: Noordam, J. E.; Bely, P. Y.; Faucherre, M.; Greenaway, A. H.;
   Merkle, F.; Perryman, M. A. C.; Roussel, P. H.; Vakili, F.; Volonte,
   S.; Weigelt, G. P.
1992ESASP.344..255N    Altcode: 1992spai.rept..255N
  In 1990, the Space Interferometry Study Team (SIST), a study group of
  the European Space Agency, recommended the launch of a 100-m class
  optical Space interferometer around the year 2005. The conclusions,
  recommendations and target design parameters for such an interferometer
  are summarised.

---------------------------------------------------------
Title: Realtime Processing of Speckle Interferograms with Digital
    Signal Processors
Authors: van Elst, M.; Weghorn, H.; Weigelt, G.
1992ESOC...39..553V    Altcode: 1992hrii.conf..553V
  No abstract at ADS

---------------------------------------------------------
Title: Photon Bias Compensation in Speckle Interferometry and
    Speckle Masking
Authors: Kerp, J.; Barth, W.; Hofmann, K. H.; Reinheimer, T.;
   Weigelt, G.
1992ESOC...39..269K    Altcode: 1992hrii.conf..269K
  No abstract at ADS

---------------------------------------------------------
Title: A Photon-Counting Method for Speckle Imaging
Authors: Mauder, M.; Weigelt, G.
1992ESOC...39..611M    Altcode: 1992hrii.conf..611M
  No abstract at ADS

---------------------------------------------------------
Title: Photon bias compensation in triple correlation imaging and
    observation of R 136.
Authors: Pehlemann, E.; Hofmann, K. -H.; Weigelt, G.
1992A&A...256..701P    Altcode:
  We report diffraction-limited speckle masking observations of the
  central object R 136 in the 30 Doradus Nebula, and we describe a new
  method for the compensation of the 4-dimensional photon bias terms in
  the average bispectrum. More than 40 stellar components are present in
  the 4.9" x 4.9" field of view of our reconstructed images. The closest
  binaries found have separations between 0.03" and 0.05". Because
  of the large number of photon events in our speckle interferograms,
  it was not possible to apply photon counting techniques. Therefore,
  the extended photon events caused various frequency-dependent bias
  terms in the average image bispectrum. To overcome this influence of
  photon noise, we have developed a new technique for the compensation
  of the 4-dimensional photon bias terms in the bispectrum. We describe
  the theory of the method and demonstrate its feasibility by various
  image reconstruction experiments.

---------------------------------------------------------
Title: Objective Prism Speckle Spectroscopy and Wideband Projection
    Speckle Spectroscopy
Authors: Grieger, F.; Weigelt, G.
1992ESOC...39..481G    Altcode: 1992hrii.conf..481G
  No abstract at ADS

---------------------------------------------------------
Title: Building Block Method - Image Reconstruction from the
    Bispectrum Using an Iterative Algorithm
Authors: Hofmann, K. H.; Weigelt, G.
1992ESOC...39..193H    Altcode: 1992hrii.conf..193H
  No abstract at ADS

---------------------------------------------------------
Title: Slit Speckle Spectroscopy
Authors: Weigelt, G.; Grieger, F.; Hofmann, K. H.; Pausenberger, R.
1992ESOC...39..471W    Altcode: 1992hrii.conf..471W
  No abstract at ADS

---------------------------------------------------------
Title: High-Resolution Speckle Masking Observations of the Asteroids
    Ceres and Vesta
Authors: Schertl, D.; Hofmann, K. H.; Weghorn, H.; Weigelt, G.
1992ESOC...39..167S    Altcode: 1992hrii.conf..167S
  No abstract at ADS

---------------------------------------------------------
Title: Supernova Remnant / SNR Studies of Speckle Masking at Low
    Light Levels
Authors: Barth, W.; Hofmann, K. H.; Weghorn, H.; Weigelt, G.
1992ESOC...39..223B    Altcode: 1992hrii.conf..223B
  No abstract at ADS

---------------------------------------------------------
Title: High-Resolution Speckle Masking Observations of the Seyfert
    Galaxy NGC1386
Authors: Zeidler, P.; Appenzeller, I.; Hofmann, K. H.; Mauder, W.;
   Wagner, S.; Weigelt, G.
1992ESOC...39...67Z    Altcode: 1992hrii.conf...67Z
  No abstract at ADS

---------------------------------------------------------
Title: Compensation of the Photon-Counting Hole in Triple Correlation
    Processing - Laboratory Experiments
Authors: Cordel, A.; Hofmann, K. H.; Mauder, W.; Weigelt, G.
1992ESOC...39..233C    Altcode: 1992hrii.conf..233C
  No abstract at ADS

---------------------------------------------------------
Title: Computer Simulations of Interferometric Imaging with the
    VLT Interferometer
Authors: Reinheimer, T.; Hofmann, K. H.; Weigelt, G.
1992ESOC...39..827R    Altcode: 1992hrii.conf..827R
  No abstract at ADS

---------------------------------------------------------
Title: High-Resolution Speckle Masking Observations of the Seyfert
    Galaxy NGC1068
Authors: Hofmann, K. H.; Mauder, W.; Weigelt, G.
1992ESOC...39...61H    Altcode: 1992hrii.conf...61H
  No abstract at ADS

---------------------------------------------------------
Title: Photon Bias Compensation in the Bispectrum and Speckle Masking
Observations of R:136
Authors: Pehlemann, E.; Hofmann, K. H.; Weigelt, G.
1992ESOC...39...73P    Altcode: 1992hrii.conf...73P
  No abstract at ADS

---------------------------------------------------------
Title: High-resolution speckle masking observations of the asteroids
    Ceres and Vesta
Authors: Schertl, D.; Hofmann, K. -H.; Weigelt, G.
1992LIACo..30..363S    Altcode: 1992opps.conf..363S
  No abstract at ADS

---------------------------------------------------------
Title: High-Resolution Speckle Masking Observations of the Seyfert
    Galaxy NGC1068
Authors: Hofmann, K. H.; Mauder, W.; Weigelt, G.
1992pagn.conf..406H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: High-Resolution Speckle Masking Observations of the Seyfert
    Galaxy NGC1386
Authors: Zeidler, P.; Appenzeller, I.; Hofmann, K. H.; Mauder, W.;
   Wagner, S.; Weigelt, G.
1992pagn.conf..440Z    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: First Results from the Faint Object Camera: High-Resolution
    Observations of the Central Object R136 in the 30 Doradus Nebula
Authors: Weigelt, G.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Crane, P.; Deharveng, J. M.; Disney, M. J.; Jakobsen,
   P.; Kamperman, T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.;
   Paresce, F.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.;
   Sparks, W. B.
1991ApJ...378L..21W    Altcode:
  R 136 is the luminous central object of the giant H II region 30 Doradus
  in the Large Magellanic Cloud. We report on the first high- resolution
  observations of RI 36 with the Faint Object Camera on board the Hubble
  Space Telescope. The physical nature of the brightest component R136a
  has been a matter of some controversy over the last few years. The
  UV images obtained show that R136a is a very compact star cluster
  consisting of more than eight stars within 0.7" diameter. From these
  high-resolution images a mass upper limit can be derived for the most
  luminous stars observed in R136.

---------------------------------------------------------
Title: The Very Massive Objects R136A in the 30 Doradus Nebula,
NGC 3603 and Eta Carinae: Cycle 2
Authors: Weigelt, Gerd
1991hst..prop.4073W    Altcode:
  R136a is the core of the ionizing cluster NGC 2070 at the center of
  the 30 Doradus nebula in the Large Magellanic Cloud. The interesting
  question is whether R136 is a super- massive object or whether it is
  a dense star cluster. We propose FOC imaging in order to solve the
  question. The same observations are proposed in order to study the
  nature HD 97950 AB in NGC 3603 and Eta Carinae. HD 97950 in NGC 3603
  is probably of similar nature as R136.

---------------------------------------------------------
Title: Blue stragglers in the core of the globular cluster 47 Tucanae
Authors: Paresce, F.; Shara, M.; Meylan, G.; Baxter, D.; Greenfield,
   P.; Jedrzejewski, R.; Nota, A.; Sparks, W. B.; Albrecht, R.; Barbieri,
   C.; Blades, J. C.; Boksenberg, A.; Crane, P.; Deharveng, J. M.; Disney,
   M. J.; Jakobsen, P.; Kamperman, T. M.; King, I. R.; Macchetto, F.;
   Mackay, C. D.; Weigelt, G.
1991Natur.352..297P    Altcode:
  High-resolution observations of the core of the globular cluster 47
  Tucanae with the Faint Object Camera on the Hubble Space Telescope
  reveal a high density of 'blue straggler' stars, occupying the upper
  end of the main sequence from which all stars in the cluster should
  have long since evolved. Their presence in the dense core supports the
  hypothesis that they formed by stellar collision and coalescence, and,
  as the heaviest objects in the cluster, have drifted to the core

---------------------------------------------------------
Title: First Results from the Faint Object Camera: High-Resolution
    Imaging of the Pluto-Charon System
Authors: Albrecht, R.; Barbieri, C.; Blades, J. C.; Boksenberg, A.;
   Crane, P.; Deharveng, J. M.; Disney, M. J.; Jakobsen, P.; Kamperman,
   T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.; Paresce, F.; Weigelt,
   G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.; Sparks,
   W. B.
1991ApJ...374L..65A    Altcode:
  The first observations of a solar system target with the Faint Object
  Camera of the HST are reported. Observations of the Pluto-Charon
  system were obtained in f/96 and f/288 mode. Pluto and Charon were
  clearly resolved, and the observed separation and diameters are in
  accordance with expectations. The f/96 data were astrometrically and
  photometrically analyzed; preliminary results are presented.

---------------------------------------------------------
Title: HST Observations of 3C 66B: A Double-stranded Optical Jet
Authors: Macchetto, F.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Crane, P.; Deharveng, J. M.; Disney, M. J.; Jakobsen,
   P.; Kamperman, T. M.; King, I. R.; Mackay, C. D.; Paresce, F.; Weigelt,
   G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.; Sparks,
   W. B.; Miley, G. K.
1991ApJ...373L..55M    Altcode:
  The Faint Object Camera on the HST has imaged the central region of the
  synchrotron jet in 3C 66B with ultra-high spatial resolutions. The
  images have an angular resolution of 0.1”, corresponding to a
  linear scale of about 40 pc. This is a factor of more than 12 better
  linear resolution than previous optical images and more than 3 times
  better than the best radio map obtained with the VLA. There is a
  close correspondence between the general characteristics of the
  smoothed optical image and the radio map, implying that the young
  (&lt;1000 yr) and old (&gt;10^7^ yr) relativistic particles occupy
  similar regions to within about 130 pc. Particularly intriguing is the
  double-stranded filamentary nature of the jet which is clearly present
  on the full-resolution images. This could reflect edge- brightening
  effects due to enhanced radiation from a skinlike structure surrounding
  the jet. A simple interpretation of the similarity of optical and
  radio morphologies would imply that localized particle acceleration
  occurs along the jet. However, the filamentary structure and filling
  factor of the radiation would also be consistent with a model in which
  the electrons are accelerated within the nucleus and are transported
  along the jet in a channel having low magnetic field and consequent
  low radiation losses.

---------------------------------------------------------
Title: First Results from the Faint Object Camera: Images of the
    Gravitational Lens System G2237+0305
Authors: Crane, P.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Bokensenberg, A.; Deharveng, J. M.; Disney, M. J.; Jakobsen, P.;
   Kamperman, T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.; Paresce,
   F.; Weigelt, G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota,
   A.; Sparks, W. B.
1991ApJ...369L..59C    Altcode:
  Images of the gravitational lens system G2237+0305 have been obtained
  with the Faint Object Camera on board the Hubble Space Telescope. A
  preliminary analysis of these images is reported here and includes
  measurements of the relative positions and magnitudes of the lensed
  images of the QSO, and of the lensing galaxy. No evidence is found
  for a fifth lensed image.

---------------------------------------------------------
Title: Blue Stragglers in the Core of 47 Tucanae
Authors: Paresce, F.; Shara, M.; Meylan, G.; Macchetto, F.; Baxter,
   D.; Blades, J. C.; Greenfield, P.; Jedrzejewski, R.; Nota, A.;
   Sparks, W. B.; Albrecht, R.; Barbieri, C.; Boksenberg, A.; Crane,
   P.; Deharveng, J. M.; Disney, M. J.; Jacobsen, P.; Kamperman, T. M.;
   King, I. R.; Mackay, C. D.; Weigelt, G.
1991BAAS...23Q.948P    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: First Results from the Faint Object Camera: Observations of
    PKS 0521-36
Authors: Macchetto, F.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Crane, P.; Deharveng, J. M.; Disney, M. J.; Jakobsen,
   P.; Kamperman, T. M.; King, I. R.; Mackay, C. D.; Paresce, F.; Weigelt,
   G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.; Sparks,
   W. B.
1991ApJ...369L..55M    Altcode:
  The Faint Object Camera on the Hubble Space Telescope was used to
  observe the radio galaxy PKS 0521 - 36 which hosts a prominent radio
  jet. Images of the jet show spatial structure comparable to VLA data
  and significantly better than optical ground-based observations. The
  jet structure is resolved at FOC resolution. In addition to the radio
  knot, well resolved by the FOC, an extension of the jet toward the
  nucleus is apparent. The rest of the jet does not show much clumpiness,
  implying that the synchrotron electrons must be accelerated all along
  the jet to account for the extent in the optical region.

---------------------------------------------------------
Title: First Results from the Faint Object Camera: SN 1987A
Authors: Jakobsen, P.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Crane, P.; Deharveng, J. M.; Disney, M. J.; Kamperman,
   T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.; Paresce, F.; Weigelt,
   G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.; Sparks,
   W. B.; Kirshner, R. P.; Panagia, N.
1991ApJ...369L..63J    Altcode:
  We present the first images of SN 1987A taken on day 1278 after
  outburst with the Faint Object Camera on board the Hubble Space
  Telescope. The supernova is well detected and resolved spatially in
  three broadband ultraviolet exposures spanning the 1500-3800 A range
  and in a narrow-band image centered on the [O III] λ5007 line. Simple
  uniform disk fits to the profiles of SN 1987A yield an average angular
  diameter of θ ~ 170 +/- 30 mas, corresponding to an average expansion
  velocity of v ~ 6000 km s^-1^. The derived broadband ultraviolet fluxes,
  when corrected for interstellar absorption, indicate a blue ultraviolet
  spectrum corresponding to a color temperature near 13,000 K. The
  luminosity of SN 1987A in the ultraviolet, L ~ 2 x 10^36^ ergs s^-1^,
  is comparable to that emitted in the visible-through-infrared portion
  of the spectrum. Finally, the narrow-band [O III] image reveals that the
  circumstellar nebula known to surround SN 1987A has the shape of a thin,
  tilted ring having a radius 0.20 pc and a thickness ~ 2 x 10^-2^ pc.

---------------------------------------------------------
Title: First Results from the Faint Object Camera: Imaging the Core
    of R Aquarii
Authors: Paresce, F.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Crane, P.; Deharveng, J. M.; Disney, M. J.; Jakobsen,
   P.; Kamperman, T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.;
   Weigelt, G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.;
   Sparks, W. B.
1991ApJ...369L..67P    Altcode:
  The Faint Object Camera on the HST was pointed toward the symbiotic
  long-period M7e Mira variable R Aquarii, and very high resolution
  images of the inner core, mainly in the ionized oxygen emission lines
  in the optical, are reported. Both images show bright arcs, knots,
  and filaments superposed on a fainter, diffuse nebulosity extending
  in a general SW-NE direction from the variable to the edge of the
  field at 10 arcsec distance. The core is resolved in forbidden O
  III 5007 A and forbidden O II 3727 A into at least two bright knots
  of emission whose positions and structures are aligned with PA =
  50 deg. The central knots appear to be the source of a continuous,
  well-collimated, stream of material extending out to 3-4 arcsec in
  the northern sector corresponding to a linear distance of about 1000
  AU. The northern stream seems to bend around an opaque obstacle and form
  a spiral before breaking up into wisps and knots. The southern stream is
  composed of smaller, discrete parcels of emitting gas curving to the SE.

---------------------------------------------------------
Title: Speckle lifetime and isoplanicity determinations: direct
    measurements and derivation from turbulence and wind profiles.
Authors: Vernin, J.; Caccia, J. -L.; Weigelt, G.; Mueller, M.
1991A&A...243..553V    Altcode:
  Investigations of the lifetime of speckle interferograms and of
  the space invariance or isoplanicity of speckle interferograms are
  useful for optimizing high angular resolution imaging and for testing
  existing and future astronomical observatory sites. In the periods
  of Jan. 31 - Feb. 4 and Feb. 11-15, 1986, various measurements of
  optical parameters of the atmosphere were made at the European Southern
  Observatory, La Silla, Chile. At the 2.2-m telescope, measurements
  of 23 speckle lifetimes τ<SUB>e</SUB> and 10 isoplanicity angles θ
  were performed. The methods used are described. Furthermore, several
  turbulence profiles, C<SUB>N</SUB><SUP>2</SUP>(h), and wind speed
  profiles, V(h), have been obtained using different techniques which are
  also described. Theoretical expressions allowing the calculation of
  τ<SUB>e</SUB> and θ from C<SUB>N</SUB><SUP>2</SUP>(h) and V(h) are
  presented. The calculated values of speckle lifetime and isoplanatic
  angle are compared with direct correlation measurements. Good
  agreement is found for the isoplanatic angle θ. For the speckle
  lifetime τ<SUB>e</SUB>, only partial agreement is found, i.e. very
  good for one night, rather good for two nights, and very bad for the
  last night. A possible explanation for the disagreement is presented.

---------------------------------------------------------
Title: FOC / Faint Object Camera Images of the Gravitational Lens
System G:2237+0305
Authors: Crane, P.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Deharveng, J. M.; Disney, M. J.; Jakobsen, P.;
   Kamperman, T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.; Paresce,
   F.; Weigelt, G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota,
   A.; Sparks, W. B.
1991fyho.conf..188C    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: First Results from the Faint Object Camera: High-Resolution
    Observations of the Central Object R136 Of the 30 Doradus Nebula in
    the LMC
Authors: Weigelt, G.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Crane, P.; Deharveng, J. M.; Disney, M. J.; Jakobsen,
   P.; Kamperman, T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.;
   Paresce, F.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.;
   Sparks, W. B.
1991BAAS...23..828W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Foc/ Faint Object Camera Observations of R:136A in the
    30-DORADUS Nebula
Authors: Weigelt, G.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Crane, P.; Deharveng, J. M.; Disney, M. J.; Jakobsen,
   P.; Kamperman, T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.;
   Paresce, F.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.;
   Sparks, W. B.
1991fyho.conf..208W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Restoration of Images Degraded by Telescope Aberrations
Authors: Reinheimer, T.; Schertl, D.; Weigelt, G.
1991fyho.conf..245R    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: A solar interferometric mission for ultrahigh resolution
imaging and spectroscopy: SIMURIS
Authors: Damé, L.; Acton, L.; Bruner, M.; Connes, P.; Cornwell, T.;
   Foing, B. H.; Heyvaerts, J.; Lemaire, P.; Martić, M.; Muller, R.;
   Porteneuve, J.; Roca Cortés, T.; Riehl, J.; Rutten, R.; Séchaud,
   M.; Smith, P.; Thorne, A. P.; Title, A. M.; Vial, J. -C.; Visser,
   H.; Weigelt, G.
1991AdSpR..11a.383D    Altcode: 1991AdSpR..11..383D
  SIMURIS is an interferometric investigation of the very fine structure
  of the solar atmosphere from the photosphere to the corona. It was
  proposed to ESA /1/, November 30 1989, for the Next Medium Size
  Mission - M2, and accepted in February 1990 for an Assessment Study
  in the context of the Space Station. The main scientific objectives
  will be outlined, and the ambitious model payload featuring the Solar
  Ultraviolet Network (SUN), a 2 m long monolithic array of 4 telescopes
  of Ø20 cm, and the Imaging Fourier Transform Spectrometer (IFTS),
  an UV and Visible Imaging Fourier Transform Spectrometer coupled to
  a Ø40 cm Gregory, described.

---------------------------------------------------------
Title: Solar physics at ultrahigh resolution from the space station
    with the Solar Ultraviolet Network (SUN)
Authors: Damé, L.; Acton, L.; Bruner, M.; Connes, P.; Cornwell,
   T.; Foing, B.; Heyvaerts, J.; Lemaire, P.; Martić, M.; Muller, R.;
   Roca Cortés, T.; Riehl, J.; Rutten, R.; Title, A. M.; Vial, J. -C.;
   Visser, H.; Weigelt, G.
1991AdSpR..11e.267D    Altcode: 1991AdSpR..11..267D
  The SUN experiment is a UV and visible Space Interferometer aimed at
  ultra-high resolution in the solar atmosphere. It has been proposed
  to ESA as part of the SIMURIS Mission Proposal which has recently
  been accepted for an Assessment Study in the framework of the
  Space Station. The 4 × 20 cm telescopes of the SUN linear array are
  non-redundantly placed to cover a 2 m baseline, and the instrument makes
  full use of stabilized interferometry potential, the 4 telescopes being
  co-aligned and co-phased on a reference field on the sun. After a brief
  outline of the scientific objectives, the concept of the instrument
  is described, and its image reconstruction potential is illustrated.

---------------------------------------------------------
Title: Deconvolution of Hubble Space Telescope Data: Computer
    Simulations and Laboratory Experiments
Authors: Reinheimer, T.; Weigelt, G.
1991rhis.conf...88R    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The Very Massive Objects R136A in the 30 Doradus Nebula,
NGC 3603 and Eta Carinae: Cycle 1 Observations
Authors: Weigelt, Gerd
1990hst..prop.3305W    Altcode:
  R136a is the core of the ionizing cluster NGC 2070 at the center of
  the 30 Doradus nebula in the Large Magellanic Cloud. The interesting
  question is whether R136 is a supermassive object or whether it is a
  dense star cluster. We propose FOC f/288 imaging and roll deconvolution
  in order to solve the question. Roll deconvolution of FOC f/288 data
  can yield exactly diffraction-limited resolution, for example, 0.02"
  at lambda = 200 nm. The same observations are proposed in order to
  study the nature HD 97950 AB in NGC 3603 and Eta Carinae. HD 97950
  in NGC 3603 is probably of similar nature as R136. Objective prism
  observations are proposed in order to perform speckle spectroscopy of
  R136a and HD 97950 AB. Speckle interferometry observations (object
  autocorrelations) show that all 3 objects can be resolved with the
  ST. Only FOC f/288 measurements can yield the required resolution
  since only in the case of f/288 data the pixel size is small enough.

---------------------------------------------------------
Title: Image reconstruction from the bispectrum using an iterative
    algorithm and applications of the method to astronomical objects
Authors: Hofmann, K. -H.; Weigelt, G.
1990SPIE.1351..522H    Altcode:
  An algorithm is presented which facilitates the iterative reconstruction
  of diffraction-limited images of astronomical objects with some
  experimental results. A simulation of 300 1D speckle interferograms
  of a star cluster is employed to demonstrate the reconstructed image
  generated by the iterative algorithm after 800 steps. The results
  are compared to an image reconstructed by means of the traditional
  recursive method, and the iterative method is found to yield images
  of higher quality.

---------------------------------------------------------
Title: First Result from the Faint Object Camera: Images of the
    Gravitational Lens System G2237 + 0305
Authors: Crane, P.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenburg, A.; Deharveng, J.; Disney, M. J.; Jakobsen, P.; Kamperman,
   T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.; Paresce, F.; Weigelt,
   G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.; Sparks,
   W. B.
1990BAAS...22R1280C    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: First Results from the Faint Object Camera: Imaging the Core
    of R Aquarii
Authors: Paresce, F.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksensburg, A.; Crane, P.; Deharveng, J. M.; Disney, M. J.; Jakobsen,
   P.; Kamperman, T. M.; King, I. R.; Macchetto, F.; Mackay, C. D.;
   Weigelt, G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.;
   Sparks, W. B.
1990BAAS...22R1275P    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: First Results from the Faint Object Camera: Supernova 1987A
Authors: Jakobsen, P.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksenberg, A.; Crane, P.; Deharveng, J.; Disney, M. J.; Kamperman,
   Y.; King, I. R.; Macchetto, F.; Mackay, C. D.; Paresce, F.; Weigelt,
   G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.; Sparks,
   W.; Kirshner, R. P.; Panagia, N.
1990BAAS...22.1275J    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: First Results from the Faint Object Camera: High Resolution
    Imaging of the Pluto-Charon System
Authors: Albrecht, R.; Barbieri, C.; Baxter, D.; Blades, J. C.;
   Boksensberg, A.; Crane, P.; Deharveng, J.; Disney, M. J.; Greenfield,
   P.; Jakobsen, P.; Jedrzejewski, R.; Kamperman, T.; King, I. R.;
   Macchetto, F.; Mackay, C. D.; Nota, A.; Paresce, F.; Sparks, W. B.;
   Weigelt, G.
1990BAAS...22.1279A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: First Results from the Faint Object Camera: Observations
    of PKS0521-36
Authors: Macchetto, F.; Albrecht, R.; Barbieri, C.; Blades, J. C.;
   Boksensburg, A.; Crane, P.; Deharveng, J. M.; Disney, M. J.; Jakobsen,
   P.; Kamperman, T. M.; King, I. R.; Mackay, C. D.; Paresce, F.; Weigelt,
   G.; Baxter, D.; Greenfield, P.; Jedrzejewski, R.; Nota, A.; Sparks,
   W. B.
1990BAAS...22.1280M    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: A proposed medium-term strategy for optical interferometry
    in space. Report to the ESA astronomy working group by the ESA Space
    Interferometry Study Team (SIST).
Authors: Noordam, J. E.; Bely, P. Y.; Faucherre, M.; Greenaway, A. H.;
   Merkle, F.; Perryman, M. A. C.; Roussel, P. H.; Vakili, F.; Volonté,
   S.; Weigelt, G. P.
1990pmso.book.....N    Altcode:
  This report provides a summary of the scientific arguments leading
  to the requirements for space interferometry, both in terms of its
  astronomical objectives, and in view of the possibilities attainable
  from the ground. It is shown that, at optical wavelengths, space
  missions will be driven by the requirement to achieve diffraction
  limited images beyond the magnitude limits achievable from the
  ground. At ultraviolet and infrared wavelengths, similar considerations
  naturally apply but, in addition, other fundamental physical atmospheric
  properties enhance further the justification to go to space. It
  is shown that several issues, albeit important to the efficiency
  and applicability of both ground and space-based interferometry,
  are not critical to the scientific case and technological issues
  facing space interferometry. Amongst these topics are discussions of
  image reconstruction techniques (speckle, phase closure, etc.), and
  aperture distribution (redundant, non-redundant). Image restoration
  techniques and other technical issues have made rapid advances in
  the context of radio aperture synthesis and VLBI techniques, and,
  in this field, optical interferometry will be well placed to exploit
  these advances. There has also been considerable progress in methods,
  theory and results of speckle imaging from the ground.

---------------------------------------------------------
Title: A proposed medium-term strategy for optical interferometry
in space: Report to the ESA astronomy working group by the ESA Space
    Interferometry Study Team (SIST)
Authors: Noordam, J. E.; Bely, P. Y.; Faucherre, M.; Greenaway, A. H.;
   Merkle, F.; Perryman, M. A. C.; Roussel, P. H.; Vakili, F.; Volonte,
   S.; Weigelt, G. P.
1990pmts.rept.....N    Altcode:
  The scientific arguments leading to the requirements for space
  interferometry, both in terms of its astronomical objectives, and in
  view of the possibilities attainable from the ground, are presented. It
  is shown that, at optical wavelengths, space missions will be driven
  by the requirement to achieve diffraction limited images beyond the
  magnitude limits achievable from the ground. The Fizeau and Michelson
  type interferometers are outlined. Above 15 to 20 m baselines, the
  Michelson interferometer configuration emerges as a preferred candidate,
  in particular in view of its less strict alignment tolerances. A system
  level study is proposed to define the detailed design of a 100 m class
  interferometer for launch around 2005.

---------------------------------------------------------
Title: VLT interferometer: proposed implementation
Authors: Beckers, Jacques M.; Enard, Daniel; Faucherre, Michel; Merkle,
   Fritz; di Benedetto, G. P.; Braun, R.; Foy, R.; Genzel, R.; Koechlin,
   Laurent; Weigelt, Gerd
1990SPIE.1236..108B    Altcode:
  The Very Large Telescope Interferometer (VLTI) is one of the operating
  modes of the VLT. In addition to consisting of the four stationary
  8 m diameter telescopes, it includes a number of movable Auxiliary
  Telescopes which both complement the (u, v) plane coverage of the large
  telescopes and provide a powerful interferometric facility by itself
  (available 100% of the time). The authors describe the current plans
  for the implementation of the VLTI. These plans will be finalized
  after the choice of the VLT site in 1990.

---------------------------------------------------------
Title: Image reconstruction from the bispectrum using an iterative
    algorithm and applications of the method to astronomical objects.
Authors: Hofmann, K. H.; Weigelt, G.
1990SPIE.1319..444H    Altcode:
  The atmosphere of the earth restricts the resolution of conventional
  astrophotography to " 1 arcsec. Much higher resolution can be obtained
  by interferometric speckle techniques. Bispectrum analysis'3 (also
  called speckle masking) of many speckle interferograms (short-exposure
  photographs; exposure time ,,o.o5 sec) yields diffraction-limited images
  with, for example, 0.02 arcsec resolution for a 5-rn telescope. After
  the first processing steps of speckle masking the object bispectrurn
  o()(u,v) is obtained up to the cut-off frequency of the telescope. From
  the object bispectrum a diffraction-limited image of the object can
  be reconstructed (a) by using the conventional recursive method2 (the
  Fourier phase of the object is extracted recursively from O()(u,v) )
  or (b) by using an iterative image reconstruction algorithm presented
  in this paper. The iterative algorithm searches for the high-resolution
  image which has the best agreement with the measured object bispectrum.

---------------------------------------------------------
Title: High Resolution Solar Physics from the Space Station with
Interferometric Techniques: The Solar Ultraviolet Network (SUN) -
    Instrument &amp;Objectives
Authors: Damé, L.; Acton, L.; Bruner, M.; Connes, P.; Cornwell, T.;
   Foing, B.; Heyvaerts, J.; Jalin, R.; Lemaire, Ph.; Martic, M.; Moreau,
   B.; Muller, R.; Roca Cortés, T.; Riehl, J.; Rutten, R.; Title, A. M.;
   Vial, J. -C.; Visser, H.; Weigelt, G.
1990PDHO....7..262D    Altcode: 1990dysu.conf..262D; 1990ESPM....6..262D
  No abstract at ADS

---------------------------------------------------------
Title: Speckle masking, speckle spectroscopy and optical aperture
    synthesis
Authors: Weigelt, G.
1990mtia.book..113W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Optics in complex systems. Proceedings.
Authors: Lanzl, F.; Preuss, H. -J.; Weigelt, G.
1990SPIE.1319.....L    Altcode:
  ICO-15 focuses on the present frontiers of optics. Optics today is
  generally part of a larger system including mechanical, electrical,
  and information-processing subsystems. The optimum design of the
  overall system has to take into account aspects of all of these
  subsystems. ICO-15 covers the fundamental limitations of optics and
  emphasizes the system point of view.

---------------------------------------------------------
Title: Objective prism speckle spectroscopy and wideband projection
    speckle spectroscopy.
Authors: Grieger, F.; Weigelt, G.
1990SPIE.1319..440G    Altcode:
  The angular resolution of conventional astronomical spectroscopy
  is limited to about 1 aresec by the turbulent atmosphere. Much
  higher resolution can be obtained by (a) objective prism speckle
  spectroscopy1, which yields diffraction-limited objective prism spectra,
  and by (b) wideband projection speckle spectroscopy1, which yields
  spectrally dispersed 1-dimensional projections of the object, i. e.,
  object/spectrum reconstructions O(x,X) or O(x,y,X).

---------------------------------------------------------
Title: Optical long-baseline interferometry in astronomy.
Authors: Reinheimer, T.; Weigelt, G.
1990SPIE.1319..678R    Altcode:
  Optical long-baseline interferometry can yield images and spectra
  with fascinating angular resolution. For example, at a wavelength of
  500 nm and with a baseline of lOOm a resolution of 10 arcsec can be
  obtained. We have studied the dependence of the SNR in the reconstructed
  image on the diluted pupil function, on wavefront aberrations and on
  photon noise in the interferograms.

---------------------------------------------------------
Title: HARDI: a high angular resolution deployable interferometer
    for space
Authors: Bely, Pierre Y.; Burrows, Christopher; Roddier, Francois;
   Weigelt, Gerd
1989SPIE.1130...92B    Altcode:
  The present orbiting interferometer proposal for operation in the
  UV, visible, and near-IR spectral ranges employs a 6-m baseline and
  a collecting area equivalent to an approximately 1.4-m diameter
  aperture. The instrument, which is of Fizeau type and therefore
  possesses better UV throughput than phased arrays, is projected
  to be able to furnish resolutions superior to those of the Hubble
  Space Telescope, as well as to complement prospective ground-based
  interferometers with its greater limiting magnitude and spectral
  coverage. A single launch will suffice to place the system in GEO or
  sun-synchronous orbit, in order to minimize thermal and mechanical
  disturbances and maximize observing efficiency.

---------------------------------------------------------
Title: Aperture synthesis in space
Authors: Faucherre, Michel; Greenaway, Alan H.; Merkle, Fritz; Noordam,
   Jan E.; Perryman, M. A.; Roussel, Philippe; Vakili, Farrokh; Volonte,
   Serge; Weigelt, Gerd
1989SPIE.1130..101F    Altcode:
  The principles of optical aperture synthesis (OAS), which can yield
  images of much higher resolution than current ground observations,
  are essentially those of radio astronomy, and may be used in either
  space- or ground-based studies of the stellar envelopes around Be
  stars, the internal dynamics of active galaxies, etc. An account is
  presently given of possible OAS instrument configurations; it is shown
  that a large field of view can be achieved, so that the instrument
  may be calibrated on bright stars during the observation of faint
  sources. Mission concepts for a 'monostructure' OAS instrument of
  about 30-m size are examined.

---------------------------------------------------------
Title: Speckle imaging and speckle spectroscopy
Authors: Weigelt, Gerd
1989SPIE.1130..148W    Altcode:
  The 'bispectrum' or 'triple correlation processing' speckle-masking
  method yields diffraction-limited images despite atmospheric image
  degradation and telescope aberrations; the limiting magnitude
  is approximately 18. An account is presently given of the theory
  and applications of speckle masking. High-resolution images and
  resolution-element spectra can be simultaneously obtained by objective
  prism speckle spectroscopy and projection speckle spectroscopy
  methods. The application of speckle masking to coherent arrays of
  telescopes is noted to be able to yield, in the case of the 4 x 8 m
  ESO Very Large Telescope, an angular resolution of 2.0 milliarcsec.

---------------------------------------------------------
Title: Speckle Masking Observations of NGC1068 and NGC7469
Authors: Hofmann, K. H.; Mauder, W.; Weigelt, G.
1989ESOC...32...35H    Altcode: 1989eag..work...35H
  No abstract at ADS

---------------------------------------------------------
Title: Profiles of a Key Programme: Gravitational Lensing
Authors: Surdej, J.; Arnaud, J.; Borgeest, U.; Djorgovski, S.;
   Fleischmann, F.; Hammer, F.; Hutsemekers, D.; Kayser, R.; Le Fevre,
   O.; Nottale, L.; Magain, P.; Meylan, G.; Refsdal, S.; Remy, M.;
   Shaver, P.; Smette, A.; Swings, J. P.; Vanderriest, C.; van Drom,
   E.; Véron-Cetty, M.; Véron, P.; Weigelt, G.
1989Msngr..55....8S    Altcode: 1989Mgr....55....8S
  Prior to Professor van der Laan's enquiry, in the March 1988 issue
  of the Messenger, on the general interest among astronomers from the
  European community to possibly participate in Key Programmes (KPs)
  at the European 80uthern Observatory, at least three distinct groups
  (including more than half of the above authors) were already involved
  in the study of "gravitational lensing" effects (see box on pages
  10-11). Observations were being performed with the help of various
  telescopes on La 8illa as weil as at other observatories (VLA, CFHT,
  Palomar, Kitt Peak, etc.).

---------------------------------------------------------
Title: Speckle Masking, Speckle Spectroscopy, and Optical Aperture
    Synthesis
Authors: Weigelt, G.
1989ASIC..274..191W    Altcode: 1989dli..conf..191W
  No abstract at ADS

---------------------------------------------------------
Title: Speckle spectroscopy.
Authors: Grieger, F.; Fleischmann, F.; Weigelt, G.
1989AGAb....2...30G    Altcode: 1989amt..conf...30G
  No abstract at ADS

---------------------------------------------------------
Title: Interferometric Imaging in Optical Astronomy
Authors: Weigelt, Gerd
1989LNP...333..283W    Altcode: 1989egao.conf..283W
  The atmosphere of the earth restricts the resolution of conventional
  astronomical imaging to about 1. Much higher resolution can be obtained
  by speckle methods. Speckle interferometry, the Knox-Thompson method
  and the speckle masking method (bispectrum or triple correlation
  processing) yield diffraction-limited resolution in spite of image
  degradation by the atmosphere and telescope aberrations. For example,
  with the ESO 3.6-m telescope a resolution of 0.028 is attained at
  a wavelength of 400 nm. The limiting magnitude is about 18. We will
  outline the theory behind the three methods. High-resolution images
  and simultaneously the spectrum of each resolution element can be
  obtained by the objective prism speckle spectroscopy and projection
  speckle spectroscopy methods. Finally, we will discuss the application
  of speckle masking to coherent arrays of telescopes. A very interesting
  example is the 4x8-m ESO VLT, which should yield the fantastic angular
  resolution of about 2 milli-arcsec.

---------------------------------------------------------
Title: Speckle masking observations of NGC 3603, Eta Carinae, and
    NGC 1068.
Authors: Eckert, J.; Hofmann, K. -H.; Mauder, W.; Schertl, D.; Weghorn,
   H.; Weigelt, G.
1989AGAb....2...31E    Altcode: 1989amt..conf...31E; 1989MitAG...2...31E
  No abstract at ADS

---------------------------------------------------------
Title: Speckle masking observation of eta Carinae.
Authors: Hofmann, K. -H.; Weigelt, G.
1988A&A...203L..21H    Altcode:
  The authors have performed speckle masking bispectrum observations
  of η Carinae at λ ≡ 850 nm with the 2.2-m ESO/MPG telescope. The
  reconstructed diffraction-limited image shows that η Carinae consists
  of one dominant star and three fainter star-like objects at separations
  of 0.21arcsec, 0.18arcsec, and 0.11arcsec. The three faint objects
  are ≡12-times fainter than the dominant star. The diameter of all
  four objects is &lt;0.03arcsec.

---------------------------------------------------------
Title: Speckle masking observations of the central object in NGC 3603,
    Eta Carinae, and the Seyfert galaxies NGC 7469 and NGC 1068.
Authors: Baier, G.; Eckert, J.; Hofmann, K. -H.; Mauder, W.; Schertl,
   D.; Weghorn, H.; Weigelt, G.
1988Msngr..52...11B    Altcode: 1988Mgr....52...11B
  Speckle masking bispectrum processing yields diffraction-limited
  images in spite of image degradation by the atmosphere and by telescope
  aberrations. For example, with the ESO 3.6-m telescope a resolution of
  0:'028 can be obtained at λ - 400 nm. The limiting magnitude is - 18^m.

---------------------------------------------------------
Title: Speckle masking.
Authors: Baier, G.; Eckert, J.; Hofmann, K. -H.; Mauder, W.; Schertl,
   D.; Weghorn, H.; Weigelt, G.
1988ESOC...29..151B    Altcode: 1988hrii.conf..151B
  Speckle masking (bispectrum or triple correlation processing)
  yields diffraction-limited images in spite of image degradation by
  the atmosphere and by telescope aberrations. For example, with the
  ESO 3.6-m telescope a resolution of 0.028arcsec can be obtained at λ
  ≡ 400 nm. The limiting magnitude is ≡18<SUP>m</SUP>. The authors
  discuss various modifications of speckle masking and show applications
  to the central object in NGC 3603, η Carinae, and the Seyfert galaxies
  NGC 7469 and NGC 1068.

---------------------------------------------------------
Title: Objective prism speckle spectroscopy and wideband projection
    speckle spectroscopy.
Authors: Grieger, F.; Fleischmann, F.; Weigelt, G.
1988ESOC...29..225G    Altcode: 1988hrii.conf..225G
  The authors have investigated two different types of speckle
  spectroscopy: (1) objective prism speckle spectroscopy, which yields
  diffraction-limited objective prism spectra, and (2) wideband projection
  speckle spectroscopy, which yields spectrally dispersed 1-dimensional
  projections of the object, i.e., object/spectrum reconstructions O(x,λ)
  or O(x,y,λ). The great advantage of the projection speckle spectroscopy
  method is (1) that it can be applied to general objects and (2) that
  O(x,λ) can be obtained for λ ≡ 350 nm to 900 nm simultaneously.

---------------------------------------------------------
Title: An Entry Level Interferometer for Space
Authors: Bely, P. Y.; Burrows, C.; Roddier, F.; Weigelt, G.
1988soae.conf....6B    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Triple shearing interferometry and shearing spectroscopy.
Authors: Hofmann, K. -H.; Weigelt, G.
1988ESOC...29..267H    Altcode: 1988hrii.conf..267H
  No abstract at ADS

---------------------------------------------------------
Title: Speckle masking with coherent arrays.
Authors: Reinheimer, T.; Fleischmann, F.; Grieger, F.; Weigelt, G.
1988ESOC...29..581R    Altcode: 1988hrii.conf..581R
  The authors show computer simulations of speckle masking with coherent
  arrays of telescopes. High resolution images can be obtained by speckle
  masking in spite of gaps in the optical transfer function. The authors
  have investigated the dependence of the signal-to-noise ratio in the
  reconstructed image on the number of photon events per interferogram and
  on the pupil function (redundant, partially redundant and non-redundant
  pupil functions). At the end of the paper the authors briefly describe
  the present status of their 16-telescope interferometer.

---------------------------------------------------------
Title: Optical parameters of the atmosphere.
Authors: Müller, M.; Baier, G.; Helm, S.; Weigelt, G.
1988ESOC...29..553M    Altcode: 1988hrii.conf..553M
  Various measurements of optical parameters of the atmosphere were
  performed with the authors' speckle camera mounted at the 2.2-m ESO/MPG
  telescope. The advantage of speckle interferograms is the fact that many
  different atmospheric parameters can be derived from them: for example,
  seeing angle, intensity profile of long-exposure images, image motion,
  speckle life time, isoplanicity, etc. Since the authors have performed
  a large number of measurements of each parameter, correlations between
  these parameters and with meteorological conditions (e.g., humidity,
  pressure, wind speed and jet streams) can be studied.

---------------------------------------------------------
Title: Aperture Synthesis in Space - Overview and Results from the
    ESA Study Group
Authors: Faucherre, M.; Greenaway, A. H.; Merkle, F.; Noordam, J. E.;
   Perryman, M. A. C.; Roussel, P.; Vakili, F.; Volonte, S.; Weigelt,
   G. P.
1988dli..conf..389F    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Speckle Masking Speckle Spectroscopy and Optical Aperture
    Synthesis
Authors: Weigelt, G.
1988dli..conf..191W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: ISIS: Image reconstruction experiments and comparison of
    various array configurations
Authors: Reinheimer, T.; Hofmann, K. -H.; Weigelt, G.
1987ESASP.273...41R    Altcode: 1987ois..work...41R
  The application of speckle masking (triple correlation processing)
  to coherent, telescope arrays in space is introduced. True
  diffraction-limited images are obtained since speckle masking is
  the solution of the phase problem in speckle interferometry. For
  example, a 14 m array can yield a resolution of 0.004 arcsec at 200 nm
  wavelength. Resolution of 0.000001 arcsec can be obtained with a 40 km
  array at 200nm. Computer simulations of optical aperture synthesis by
  speckle masking are shown. Simulations of a two-dimensional ring-shaped
  array and of a linear one-dimensional array are described. The
  dependence of the signal-to-noise ratio in the reconstructed image on
  photon noise is discussed.

---------------------------------------------------------
Title: ISIS: imaging speckle interferometer in space
Authors: Weigelt, Gerd
1987ESASP.273...69W    Altcode: 1987ois..work...69W
  The author proposes the construction of a large multiple-mirror
  interferometer in space. For example, at λ ≡ 100 nm and with a
  baseline of 20 m, a resolution of 0arcsec.001 can be obtained. The
  following three interferometer types are very attractive: (a)
  linear 14-m array (launched by the Space Shuttle), (b) 2-dimensional,
  deployable 20 m array, and (c) array of 6 to 20 free-flying telescopes
  with baselines up to 40 km and resolution of 10<SUP>-6</SUP>arcsec
  at λ ≡ 200 nm. The limiting magnitude of optical long-baseline
  interferometry in space is ≡24<SUP>m</SUP> or even fainter.

---------------------------------------------------------
Title: ISIS: image reconstruction methods and signal-to-noise ratio
    investigations
Authors: Hofmann, K. -H.; Weigelt, G.
1987ESASP.273...37H    Altcode:
  In this paper the signal-to-noise ratio of the two image reconstruction
  methods optical phase-closure imaging and speckle masking (triple
  correlation) are discussed. The results show that (1) phase-closure
  imaging yields images with higher signal-to-noise ratio than speckle
  masking for bright objects and that (2) speckle masking yields images
  with higher signal-to-noise ratio than phase-closure imaging for
  faint objects.

---------------------------------------------------------
Title: Astronomical speckle masking: image reconstruction by cross
    triple correlation
Authors: Hofmann, K. -H.; Weigelt, G.
1987ApOpt..26.2011H    Altcode:
  A new, modified version of speckle masking that is based on cross
  triple correlation processing (or cross bispectrum processing) instead
  of autotriple correlation processing is proposed. The advantage of
  cross triple correlation processing is the fact that undesired photon
  bias terms in the average bispectrum of the speckle interferograms
  are overcome completely. Computer simulations (astronomical magnitude
  about 16 mag) that illustrate the feasibility of the method are shown.

---------------------------------------------------------
Title: Optical long-baseline interferometry and aperture synthesis
    by speckle masking
Authors: Reinheimer, T.; Weigelt, G.
1987A&A...176L..17R    Altcode:
  The application of speckle masking to coherent telescope arrays
  can yield images with very high angular resolution. True images are
  obtained since speckle masking is a solution of the phase problem in
  speckle interferometry. For example, a 1-km array on earth can yield
  a resolution of 10<SUP>-4</SUP>arcsec at λ ≡ 500 nm. The fantastic
  resolution of 10<SUP>-6</SUP>arcsec can be obtained with a 40-km array
  in space at λ ≡ 200 nm. The authors show computer simulations of
  optical aperture synthesis by speckle masking. They describe simulations
  with a 10-telescope and a 4-telescope array (ESO VLT). Photon noise
  in the interferograms was simulated in all experiments.

---------------------------------------------------------
Title: High-resolution astronomical imaging by roll deconvolution
    of Space Telescope data
Authors: Mueller, M.; Weigelt, G.
1987A&A...175..312M    Altcode:
  Summary. Roll deconvolution is a speckle method that can improve
  the resolution of the 2.4-m Hubble Space Telescope (H ST) at
  short UV wavelengths. A diffraction-limited image can be digitally
  reconstructed from two aberration-degraded images recorded at two
  different roll angles of the HST. The reconstruction is performed
  by complex inverse filtering of the two degraded images. We show
  optical-digital simulations that illustrate how the signal-to-noise
  ratio of the reconstruction depends on photon noise, on the structure
  of the point-spread function and on other parameters. The roll
  deconvolution technique can be applied to HST data recorded with the
  f/288- mode of the Faint Object Camera. At = 140 nm a resolution of
  0015 can be obtained. Key words: space vehicles - image processing -
  instruments - interferometry - spectroscopy

---------------------------------------------------------
Title: Speckle interferometric observations of Pluto and its moon
    Charon on seven different nights
Authors: Baier, G.; Weigelt, G.
1987A&A...174..295B    Altcode:
  We have performed speckle interferometric observations of Pluto and
  its moon Charon on seven different nights. The measured separations
  varied from 0".20 to 0".86. The speckle data were recorded with the
  2.2-m telescope at the Calar Alto Observatory in Spain. For these
  measurements 87000 speckle interferograms were reduced digitally. The
  resolution of the observations is 0".07. The data from July 12 were
  used to study the size of Pluto and Charon.

---------------------------------------------------------
Title: Speckle masking - Overcoming atmospheric image degradation
    in optical astronomy
Authors: Weigelt, G.
1987KlBer..30...15W    Altcode:
  The fundamental principles and performance of the optical speckle
  masking technique developed by Weigelt (1977) and Weigelt and Wirnitzer
  (1983) are briefly characterized. The method makes it possible to
  obtain astronomical images with diffraction-limited resolution down
  to a limiting magnitude of about 20 mag. The resolution possible with
  speckle masking is found to be about 30 marcsec for a 3.6-m telescope,
  100 microarcsec for a 1-km-baseline ground interferometric array,
  and 1 microarcsec (at wavelength 200 nm) for a 40-km-baseline space
  array. Sample images, computer simulations of aperture synthesis,
  and a model of a space array are shown.

---------------------------------------------------------
Title: Triple Shearing Interferometry and Shearing Spectroscopy
Authors: Hofmann, K. H.; Weigelt, G.
1987iia..conf...83H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Image Reconstruction from Long Baseline Interferograms by
    Speckle Masking
Authors: Hofmann, K. H.; Reinheimer, T.; Weigelt, G.
1987iia..conf..157H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: High-resolution astronomical imaging by triple correlation
    processing.
Authors: Weigelt, G.
1987SPIE..828....8W    Altcode:
  The atmosphere of the earth restricts the resolution of conventional
  astrophotography to about 1 arcsec. Much higher resolution can be
  obtained by using speckle methods. The speckle masking method (triple
  correlation method) yields images of general astronomical objects with
  diffraction-limited resolution, for example, 0.03 arcsec resolution
  for a 3.6-m telescope. A 1-km telescope array on the earth would yield
  images with 10<SUP>-4</SUP>arcsec resolution. With a 40-km array in
  space a fantastic resolution of 10<SUP>-6</SUP>arcsec can be achieved at
  λ ≡200 nm. The author shows speckle masking observations of NGC 3603
  and Eta Carinae and computer simulations of optical aperture synthesis.

---------------------------------------------------------
Title: Hochauflösende Abbildungsmethoden bei UV-, sichtbaren und
    IR-Wellenlängen
Authors: Weigelt, G.
1987MitAG..68..157W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Erfordernisse und Möglichkeiten räumlicher Auflösung
Authors: Weigelt, G.
1987MitAG..68..141W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: High-resolution astronomical imaging by photon-counting
    speckle masking.
Authors: Schertl, D.; Fleischmann, F.; Hofmann, K. -H.; Weigelt, G.
1987SPIE..808...38S    Altcode:
  Speckle masking is a triple correlation method that can reconstruct
  diffraction-limited images from astronomical speckle interferograms. The
  obtained resolution is about 30 times higher than the resolution of
  conventional astronomical photography. In this paper we describe
  a photon-counting version of speckle masking that can be applied
  to speckle interferograms consisting of a small number of photon
  events. We show computer simulations which illustrate the feasibility
  of the method. Finally, we compare photon-counting speckle masking with
  four-dimensional bispectrum processing, tomographic speckle masking,
  cross-triple correlation processing and bispectrum processing of
  photon-counting speckle interferograms.

---------------------------------------------------------
Title: Speckle Masking and Speckle Spectroscopy
Authors: Weigelt, G.; Hofman, K. H.
1987iia..conf...43W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Image reconstruction from long-baseline interferograms.
Authors: Reinheimer, T.; Hofmann, K. -H.; Weigelt, G.
1987SPIE..808...35R    Altcode:
  During the last few years it has been shown that speckle
  masking observations with large single-dish telescopes can yield
  diffraction-limited images in spite of image degradation by the
  atmosphere and by telescope aberrations. Much higher resolution
  can be obtained if the Coude beams of many telescopes are combined
  coherently in a central station and if the obtained long-baseline
  speckle interferograms are evaluated by speckle masking. For example,
  a 10-km array on earth can yield images with the fascinating resolution
  of 10 arcsec. Labeyrie has for the first time shown that it is possible
  to combine the Coude beams of two telescopes coherently.

---------------------------------------------------------
Title: High angular resolution shearing spectroscopy and triple
    shearing interferometry
Authors: Hofmann, K. -H.; Weigelt, G.
1986ApOpt..25.4280H    Altcode:
  Shearing spectroscopy is a new method which can simultaneously yield
  high spatial and spectral resolution in spite of telescope aberrations
  and image degradation caused by the atmosphere. Especially attractive
  is the application of shearing spectroscopy to large astronomical space
  telescopes. The method is an extension of shearing interferometry. The
  principle of shearing spectroscopy and laboratory experiments are
  described. Two different methods have been studied for reconstructing
  true images and objective prism spectra from shearing data: holographic
  shearing interferometry, and a new method called triple shearing
  interferometry. Triple shearing interferometry is in some respects
  related to the phase closure method in radio interferometry.

---------------------------------------------------------
Title: Imaging speckle interferometer in space: image reconstruction
    by speckle masking.
Authors: Hofmann, K. -H.; Weigelt, G.
1986JOSAA...3.1908H    Altcode: 1986OSAJ....3.1908H; 1986JOSAA...3.1908W
  The authors propose the construction of a large multiple-mirror
  interferometer in space. For example, at λ ≡ 100 nm and with a
  baseline of 20 m, a resolution of 0.001 sec of arc can be obtained. At
  short UV wavelengths a multiple-mirror interferometer will produce
  speckle interferograms caused by aberrations and deformations
  of the interferometer. From the speckle interferograms true
  diffraction-limited images can be reconstructed by various speckle
  methods. The speckle-masking method (triple correlation) is attractive
  since it yields true images with high signal-to-noise ratio. The
  limiting magnitude of interferometry in space is about 24.

---------------------------------------------------------
Title: Speckle masking observation of the central object in the
    giant H II region NGC 3603.
Authors: Hofmann, K. -H.; Weigelt, G.
1986A&A...167L..15H    Altcode:
  The authors report the first reconstruction of a true
  diffraction-limited image of the central object HD 97950 AB in NGC
  3603. The image has been reconstructed by a 4-dimensional version
  of speckle masking (triple correlation processing). Speckle masking
  is a solution of the phase problem in speckle interferometry. The
  reconstructed image shows that HD 97950 AB consists of 4 stars
  (V-magnitudes 11.7, 11.7, 11.7 and 12.2; separations relative to A1:
  0.78arcsec, 0.37arcsec and 0.34arcsec).

---------------------------------------------------------
Title: R 136 a et l'objet central de la région H II géante NGC
    3603 résolu par interférometrie holographique des tavelures.
Authors: Weigelt, G.; Baier, G.; Ladebeck, R.
1986LAstr.100..346W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Eta Carinae resolved by speckle interferometry.
Authors: Weigelt, G.; Ebersberger, J.
1986A&A...163L...5W    Altcode:
  The authors have performed digital speckle interferometric observations
  of Eta Carinae at λ ≡ 820 nm and λ ≡ 850 nm with the 3.6-m and
  2.2-m telescope at ESO. Four starlike components (stars or gas clouds)
  were resolved for the first time. The diameter of all 4 components is
  &lt;0arcsec.03. The field size of the reconstructed autocorrelation is
  ≡0arcsec.8. The separations of the components A2, A3 and A4 relative
  to the brightest component A1 are 0arcsec.18, 0arcsec.22 and 0arcsec.09,
  respectively.

---------------------------------------------------------
Title: High resolution speckle methods for overcoming image
    degradation caused by the atmosphere and telescope aberrations.
Authors: Weigelt, G.; Baier, G.; Ebersberger, J.; Fleischmann, F.;
   Hofmann, K. -H.; Ladebeck, R.
1986OptEn..25..706W    Altcode:
  Analytical techniques are described for using speckle interferometry
  (SI) obtain 0.03 arcsec resolution images of stellar objects. SI
  proceeds by computing the ensemble average power spectrum of all
  speckle interferograms, compensating for the photon bias in the
  spectrum and for the SI transfer function, and calculating the object
  autocorrelations from the object power spectrum. Techniques employed for
  holographic SI, speckle masking to obtain diffraction-limited images,
  and speckle spectroscopy are defined. Photon-counting techniques
  and autocorrelations and image reconstruction from long-baseline and
  multiple-mirror interferometry are also defined. Sample SI images are
  provided of numerous stellar objects, including the asteroids Juno and
  Amphitrite, Pluto and is moon Charon, spectroscopic and Hyades double
  stars, and the gravitational lens quasar PG 1115+080A.

---------------------------------------------------------
Title: Speckle interferometry of spectroscopic and Hyades binary
    stars.
Authors: Ebersberger, J.; Weigelt, G.; Orellana, R. B.
1986A&AS...64..131E    Altcode:
  We report on 39 high-resolution speckle observations of 18
  spectroscopic, 9 Hyades and 7 other binary stars. Measurements were
  performed with the Danish 1.5-m and the ESO 3.6-m telescope at La
  Silla, Chile.

---------------------------------------------------------
Title: Optical parameters of the atmosphere and high-resolution
    long-exposure imaging.
Authors: Weigelt, G.; Baier, G.; Helm, S.; Mueller, M.; Wurm, C.
1986ESOC...24..215W    Altcode: 1986vlt..work..215W
  The investigation of optical parameters of the atmosphere is
  important for site selection for future large telescopes. From speckle
  interferograms many different parameters can be derived. The authors
  have studied the following optical parameters for many different nights:
  (1) long-exposure point-spread function, (2) image motion of speckle
  interferograms (short-exposure images), (3) temporal variation of
  the size (FWHM) of speckle interferograms, (4) differential image
  motion between the two Airy disks of two 5-cm apertures at a distance
  of 30 cm (and calibration measurements for the ESO seeing monitor),
  (5) speckle life time, (6) isoplanicity of speckle interferograms
  (space variance of speckle interferograms).

---------------------------------------------------------
Title: Image Reconstruction from Speckle Interferograms Recorded
    with a Laboratory Segmented-Mirror Telescope
Authors: Hofmann, K. -H.; Koch, R.; Weigelt, G.
1986MitAG..67..430H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Speckle masking, speckle spectroscopy and optical aperture
    synthesis.
Authors: Weigelt, G.; Hofmann, K. -H.; Reinheimer, T.
1986ESOC...24..289W    Altcode: 1986vlt..work..289W
  Speckle masking is a solution of the phase problem in speckle
  interferometry. Therefore, diffraction-limited images can be
  reconstructed by speckle masking in spite of image degradation by the
  atmosphere and telescope aberrations. Speckle masking observations
  with one of the 8-m telscopes of the ESO-VLT can yield high-resolution
  images with 0.01arcsec resolution. The limiting magnitude of speckle
  interferometry and of speckle masking is about 20<SUP>m</SUP>. Speckle
  spectroscopy is a speckle method that yields diffraction-limited
  objective prism spectra. The coherent combination of the 4 beams of
  the 4 VLT telescopes yields long-baseline speckle interferograms. The
  authors show by digital simulation that images with 0.001arcsec
  resolution can be reconstructed from VLT long-baseline interferograms by
  speckle masking. They compare the 25 m-25 m-25 m redundant array with
  the 25 m-75 m-50 m nonredundant array. The 25 m-25 m-25 m redundant
  array yields much higher SNR.

---------------------------------------------------------
Title: Speckle Interferometry of T Tauri Stars and Related Objects
Authors: Baier, G.; Bastian, U.; Keller, E.; Mundt, R.; Weigelt, G.
1985A&A...153..278B    Altcode:
  The authors have performed speckle interferometric observations of
  5 T Tauri stars and 3 related objects. The main motivation for this
  work is to measure known close double stars and to search for new close
  double stars which can be used for mass determinations. The authors have
  resolved the known double stars V649 Ori (separation = 1arcsec.41) and
  S CrA (separation = 1arcsec.37). The measurements of the stars CO Ori,
  UX Tau A, DQ Tau, HR 6000, HR 5999, and TY CrA show that these stars
  cannot be double stars with a separation larger than 0arcsec.09 and a
  magnitude difference smaller than 2 - 3<SUP>m</SUP>. Furthermore the
  angular diameter of the stars is smaller than 0arcsec.09.

---------------------------------------------------------
Title: Speckle interferometry of the central object in the giant
    HII region NGC 3603.
Authors: Baier, G.; Ladebeck, R.; Weigelt, G.
1985A&A...151...61B    Altcode:
  The central object of the giant H II region NGC 3603 is the dense
  star cluster HD 97950. In various papers it has been discussed that
  this object may be of similar nature as the luminous central object R
  136a of the 30 Doradus nebula in the Large Magellanic Cloud. Speckle
  interferometric observations of the dominating core AB of HD 97950
  have been performed. It is found that HD 97950AB consists of at least
  four stars. The component B is a single star at a resolution of 0.09
  arcsec. The component A is a close triple star. The separations of A2,
  A3 and B relative to A1 were measured to be 0.366 arcsec, 0.332 arcsec,
  and 0.779 arcsec, respectively. The autocorrelation of AB contains a
  true, diffraction-limited image of the triple star A1-A2-A3.

---------------------------------------------------------
Title: R 136a in the 30 Doradus nebula resolved by holographic
    speckle interferometry.
Authors: Weigelt, G.; Baier, G.
1985A&A...150L..18W    Altcode:
  The authors have performed digital speckle interferometry observations
  of R 136, the luminous central object in the 30 Doradus nebula. It was
  possible to reconstruct a diffraction-limited true image of R 136a by
  using R 136b and R 136c as the deconvolution keys (holographic speckle
  interferometry). The reconstructed image shows for the first time that
  R 136a is a dense star cluster consisting of 8 stars within a diameter
  of 1arcsec (at λ ≡ 710 nm). The dominating objects are three stars
  of almost identical magnitudes with separations of 0.10arcsec and
  0.48arcsec. The reconstructed image has a resolution of 0.09arcsec.

---------------------------------------------------------
Title: R 136a and the central object in the giant H II region NGC
    3603 resolved by holographic speckle interferometry.
Authors: Weigelt, G.; Baier, G.; Ladebeck, R.
1985Msngr..40....4W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Imaging Speckle Interferometer (ISI) in space: digital
    simulations ofimage reconstruction and photon noise.
Authors: Hofmann, K. H.; Weigelt, G.
1985ESASP.226..145H    Altcode: 1985koas.coll..145H
  Image reconstruction for the Imaging Speckle Interferometer (ISI)
  a space-based multiple mirror interferometer which can produce
  high-resolution images is discussed. At short UV wavelengths a multiple
  mirror interferometer produces speckle interferograms caused by
  aberrations of the interferometer. From the speckle interferograms true
  images can easily be reconstructed with the speckle masking method. In
  speckle masking no point source is required near the object. Digital
  simulations of image reconstruction from ISI data, in which various
  multiple mirror pupil functions and various amounts of photon noise
  (1000 to 10 photons per pixel) were simulated are shown. Speckle
  spectroscopy with ISI, and image reconstruction from 2-telescope
  interferograms are considered.

---------------------------------------------------------
Title: TRIO: a kilometric array stabilized by solar sails.
Authors: Labeyrie, A.; Authier, B.; de Graauw, T.; Kibblewhite, E.;
   Weigelt, G.
1985ESASP.226...27L    Altcode: 1985koas.coll...27L
  A spaceborne optical array (TRIO) consisting of 2 to 4 telescopes
  spaced up to 1000 m apart, at Lagrange point 5 of the Earth-Moon
  trajectory is described. For kilometric baselines and variable
  aperture patterns allowing image reconstructions, TRIO has free flying
  telescopes and a focal station. Small solar sails point and stabilize
  the system. Electrostatic mounts support the telescopes. Many apertures
  can be utilized in later versions.

---------------------------------------------------------
Title: Speckle interferometry, image reconstruction by speckle
    masking, speckle spectroscopy, multiple-mirror interferometry.
Authors: Weigelt, G.; Baier, G.; Ebersberger, J.; Fleischmann, F.;
   Hofmann, K. -H.; Ladebeck, R.
1985SPIE..556..238W    Altcode:
  The authors discuss various high-resolution speckle methods which can
  overcome image degradation caused by the atmosphere and telescope
  aberrations. All methods yield diffraction-limited resolution, for
  example 0.03arcsec for a 3.6 m telescope. The authors show various
  astronomical applications of speckle interferometry, observations of
  asteroids, Pluto/Charon, double stars and the gravitational-lens triple
  quasar. Speckle interferometry can yield a true diffraction-limited
  image if there is a point source (reference star) in the isoplanatic
  neighbourhood of the object (holographic speckle interferometry). The
  authors show an application of holographic speckle interferometry
  to the central object R136a of the 30 Doradus nebula in the Large
  Magellanic Cloud. A true diffraction-limited image of R136a has been
  reconstructed. The image shows that R136a consists of 8 stars. Speckle
  masking is a triple correlation method which yields diffraction-limited
  images of general astronomical objects. A point source near the
  object is not required. The authors describe an application of speckle
  masking to the central object in the giant H II region NGC 3603. The
  reconstructed image shows that this central object is a star cluster of
  4 stars with magnitudes 11<SUP>m</SUP>, 12<SUP>m</SUP>, 13<SUP>m</SUP>
  and 13<SUP>m</SUP>.

---------------------------------------------------------
Title: Roll deconvolution of Space Telescope data: inverse filtering
    of two speckle interferograms.
Authors: Müller, M.; Weigelt, G.
1985SPIE..556..270M    Altcode:
  Roll deconvolution is a speckle method that can improve the resolution
  of the 2.4 m Hubble Space Telescope (HST) at short UV wavelengths. A
  diffraction-limited image can digitally be reconstructed from two
  degraded images recorded at two different roll angles of the HST. The
  reconstruction is performed by complex inverse filtering of the two
  degraded images. In digital simulations the authors have investigated
  how the signal-to-noise ratio of the reconstruction depends on photon
  noise (10<SUP>4</SUP> to 50 photon counts per pixel), on the structure
  and size of the point spread function (caused by aberrations) and
  other parameters.

---------------------------------------------------------
Title: Isoplanicity and lifetime of stellar speckle interferograms.
Authors: Ebersberger, J.; Weigelt, G.
1985AcOpt..32..793E    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Roll deconvolution of space telescope data
Authors: Walter, M.; Weigelt, G.
1985AdSpR...5c.169W    Altcode: 1985AdSpR...5..169W
  Roll deconvolution is a speckle method that can improve the resolution
  of the 2.4m Space Telescope at short UV wavelengths. In digital
  simulations we have investigated the dependence of the signal-to-noise
  ratio of the reconstruction on photon noise (10<SUP>4</SUP> to
  10 photons per pixel), the object size, the telescope point spread
  function and guiding errors.

---------------------------------------------------------
Title: PM. 08 Trio: A Kilometric Optical Array Controlled by Solar
    Sails
Authors: Labeyrie, A.; Authier, B.; Boit, J. L.; de Graauw, T.;
   Kibblewhite, E.; Koechlin, L.; Rabout, P.; Weigelt, G.
1984BAAS...16..828L    Altcode:
  Concepts studied for ESA's TRIO project are presented: system control
  in the vicinity of the L5 Lagrangian point, pointing and alignment
  procedures, sky coverage optical train, image reconstruction through
  aperture synthesis, scattered light contamination of the coudé beams,
  algorithms for stabilizing drifting fringes in computer memory,
  limiting magnitudes.

---------------------------------------------------------
Title: Interferometría estelar Speckle aplicada a la determinación
    de dobles espectroscópicas
Authors: Orellana, R. B.; Weigelt, G.
1984BAAA...30..186O    Altcode:
  La técnica de Interferometría Speckle permite, a través de
  métodos del análisis de Fourier, obtener imágenes estelares con una
  resolución próxima al límite por difracción del telescopio, a partir
  de imágenes registradas con determinado grado de degradación. Se
  discuten dos técnicas de análisis, una analógica (óptica)
  y la otra digital, efectuando una comparación de ambas en base
  a la resolución final alcanzada para la separación y ángulo de
  posición. Se discute la flexibilidad y la velocidad de procesamiento
  en ambos casos. Se presentan resultados experimentales de unas diez
  dobles espectroscópicas, habiéndose obtenido una resolución para
  la separación de 0".03. Todos los registros fueron obtenidos con el
  telescopio de 3.6 m del ESO (Chile).

---------------------------------------------------------
Title: Specle Interferometrie von T Tauri-Sternen und verwandten
    Objekten
Authors: Baier, G.; Keller, E.; Weigelt, G.; Bastian, U.; Mundt, R.
1984MitAG..62..241B    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Photon-counting speckle interferometry of Pluto's moon Charon
    in 5 different nights.
Authors: Baier, G.; Weigelt, G.
1984anop.conf...36B    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Speckle interferometry, speckle masking, speckle spectroscopy
    and speckle frame selection
Authors: Weigelt, G.
1984vlti.conf..337W    Altcode: 1984IAUCo..79..337W
  High-resolution speckle imaging which is made possible by a very large
  telescope (VLT) is discussed. It is shown that various speckle methods
  can yield a resolution of about 0.01 arcsec with a 8-m to 10-m VLT and
  that the usefulness of the methods depends on the achievable limiting
  magnitude. The seeing-dependent limiting magnitudes that are possible
  with speckle interferometry, speckle masking, and speckle spectroscopy
  are considered. Speckle interferometry results of faint objects,
  R136a, Pluto/Charon, and the gravitational-lens quasar PG1115 + 080 A,
  as well as speckle masking measurements of some close spectroscopic
  double stars are presented.

---------------------------------------------------------
Title: A skeletonizing photon-counting technique for stellar speckle
    interferometry; application to speckle data of a gravitational
    lens quasar.
Authors: Baier, G.; Weigelt, G.
1984anop.conf...34B    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Roll deconvolution of Space Telescope data; investigation of
    the influence of photon noise.
Authors: Walter, M.; Weigelt, G.
1984anop.conf...40W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Speckle spectroscopy.
Authors: Stork, W.; Weigelt, G.
1984anop.conf...32S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Triple correlation theory and applications of the
    speckle-masking method.
Authors: Lohmann, A. W.; Weigelt, G.; Wirnitzer, B.
1984anop.conf...28L    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: New site testing techniques.
Authors: Ebersberger, J.; Weigelt, G.
1984ESOC...18..185E    Altcode: 1984stfl.work..185E
  The derivation of desired atmospheric parameters from speckle
  interferograms is discussed, and measurements of long-exposure point
  spread functions, speckle life time and other atmospheric parameters
  are illustrated. The most important atmospheric parameters for site
  testing are the long-exposure point spread function, the speckle
  life time, and the distribution of the atmospheric layers. Other
  important parameters include the size of the isoplanatic field and
  the average power spectrum of speckle interferograms and shearing
  interferograms. Two different types of telescopes are useful for
  site testing measurements. A 0.3 m site testing telescope produces
  scintillation measurements and image motion measurements, and a 0.7 m
  or 1.2 m site testing telescope produces speckle interferograms. More
  information can be extracted from speckle interferograms than from
  image motion data, and measurements of image motion, size and shape
  of the long-exposure point spread function, the speckle life time,
  isoplanicity, and the average power spectrum of speckle interferograms
  can be obtained. Pupil images recorded with a 0.7 m or 1.2 m telescope
  can provide the distribution of atmospheric layers. The recording and
  evaluation of speckle data in addition to the classical site testing
  data is suggested.

---------------------------------------------------------
Title: Derivation of atmospheric parameters from speckle
    interferograms.
Authors: Ebersberger, J.; Weigelt, G.
1984anop.conf...44E    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Photon-counting speckle interferometry of T Tauri stars.
Authors: Baier, G.; Bastian, U.; Keller, E.; Mundt, R.; Weigelt, G.
1984anop.conf...38B    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Shearing spectroscopy.
Authors: Hofmann, K. -H.; Weigelt, G.
1984anop.conf...42H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: High-resolution astronomical imaging with the speckle masking
    method.
Authors: Stork, W.; Weigelt, G.; Wirnitzer, B.
1984anop.conf...26S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Speckle masking in astronomy: triple correlation theory and
    applications.
Authors: Lohmann, A. W.; Weigelt, G.; Wirnitzer, B.
1983ApOpt..22.4028L    Altcode:
  Due to the turbulent atmosphere the resolution of conventional
  astrophotography is limited to ≡1 sec of arc. However, the
  speckle-masking method can yield diffraction-limited resolution, i.e.,
  0.03 sec of arc with a 3.6-m telescope. Speckle masking yields true
  images of general astronomical objects. No point source is required in
  the isoplanatic field of the object. The authors present the theory of
  speckle masking; it makes use of triple correlations and their Fourier
  counterparts, the bispectra. They show algorithms for the recovery of
  the object from genuine astronomical bispectra data.

---------------------------------------------------------
Title: Speckle interferometry observations of Pluto's moon Charon
Authors: Hetterich, N.; Weigelt, G.
1983A&A...125..246H    Altcode:
  A photon-counting speckle interferometric study of Pluto and its
  moon, Charon, has used 12,000 speckle interferograms to yield position
  angles. In order to solve such measurements' inherent 180-deg ambiguity,
  a long exposure photograph of the speckle data on the second night of
  observation was calculated. Due to the motion of Charon, the position
  angle changed from 188 to 170 deg, while the separation changed from
  0.63 to 0.95 arcsec.

---------------------------------------------------------
Title: Image reconstruction by the speckle-masking method.
Authors: Weigelt, G.; Wirnitzer, B.
1983OptL....8..389W    Altcode:
  Speckle masking is a method for reconstructing high-resolution images
  of general astronomical objects from stellar speckle interferograms. In
  speckle masking no unresolvable star is required within the isoplanatic
  patch of the object. The authors present digital applications of
  speckle masking to close spectroscopic double stars. The speckle
  interferograms were recorded with the European Southern Observatory's
  3.6-m telescope. Diffraction-limited resolution (0.03 arcsec) was
  achieved, which is about 30 times higher than the resolution of
  conventional astrophotography.

---------------------------------------------------------
Title: Speckle Site Testing
Authors: Weigelt, G.
1983ESOC...17..263W    Altcode: 1983vlt..work..263W
  The author suggests to perform site testing for the Very Large
  Telescope (VLT) with two or three transportable, light weight 1.2 m
  telescopes. These telescopes should record speckle interferograms and
  pupil images. From these raw data most of the interesting atmospheric
  parameters can be derived easily.

---------------------------------------------------------
Title: High-resolution imaging with ESO's Very Large Telescope
Authors: Weigelt, G.
1983ESOC...17..121W    Altcode: 1983vlt..work..121W
  High resolution speckle interferometry, speckle masking and speckle
  spectroscopy with the European Southern Observatory's planned Very
  Large Telescope (VLT) are discussed. These methods are noted to yield
  exactly diffraction-limited resolution, lambda/D; so that 0.01-arcsec
  resolution is obtainable in the case of an aperture diameter, D, of 10
  m, and 0.0005 arcsec resolution is achievable in the case of an array
  with a baseline, D, of 200 m. Limiting magnitude, seeing dependence,
  influence of aberration, and influence of dome seeing, are illustrated
  for various high resolution measurements. The suggested construction
  of a three-telescope array has the advantage of additional use for
  long baseline speckle work, as well as three-telescope intensity
  interferometry.

---------------------------------------------------------
Title: Speckle interferometry observations of the asteroids Juno
    and Amphitrite
Authors: Baier, G.; Weigelt, G.
1983A&A...121..137B    Altcode:
  Digital speckle interferometry of the asteroids Juno and Amphitrite has
  been performed. The speckle interferograms were recorded with the Danish
  1.5 m telescope at the European Southern Observatory. The measurements
  show that both asteroids have elliptical shapes. The diameters of Juno
  were measured to be 230 km + or - 20 km (0.26 arcsec), and 288 km +
  or - 20 km (0.32 arcsec) on December 24, 1979, at 6 h 10 min UT, and
  the diameters of Amphitrite were 160 km + or - 30 km (0.11 arcsec) and
  255 km + or - 30 km (0.17 arcsec) on April 4, 1981, at 8 h 30 min UT.

---------------------------------------------------------
Title: Digital speckle interferometry of Juno, Amphitrite and Pluto's
    moon Charon
Authors: Baier, G.; Hetterich, N.; Weigelt, G.
1982Msngr..30...23B    Altcode:
  Digital speckle interferometric observations of the 9th and 11th
  magnitude asteroids Juno and Amphitrite and of the 16th magnitude
  moon of Pluto, Charon, are reported. Results are also reported for
  the 11th magnitude Seyfert galaxy NGC 1068, the 12.7th magnitude
  quasar 3 C 273, and the 16.2 magnitude triple QSO PG 1115+080. The
  observational technique consists of Fourier analyses of large numbers
  of short-exposure photographs, i.e., speckle interferograms, to produce
  high resolution autocorrelated imagery. Short exposures are used to
  retain high resolution features. Image intensifiers with a gain of
  300,000 were part of the equipment, together with a photon-counting
  mode capability. A total of 1450 speckle interferograms were produced
  for Juno, 1776 for Amphitrite, and 15,000 for Charon. A method for
  image reconstruction involving speckle masking is described, together
  with high resolution speckle spectroscopy.

---------------------------------------------------------
Title: Speckle interferometry and related techniques with advanced
    technology optical telescope
Authors: Weigelt, G.
1982SPIE..332..284W    Altcode:
  Speckle interferometry techniques are especially attractive with
  large future telescopes. For example, a 10m telescope can yield an
  angular resolution of 0.01 arc sec in spite of image degradation by
  the atmosphere. The limiting magnitude of speckle interferometry is
  about 20<SUP>m</SUP>. We intend to discuss the following aspects of
  speckle methods: (a) The influence of telescope aberrations on speckle
  interferometry measurements. We show laboratory simulations of speckle
  interferometry with severe stationary telescope aberrations. (b)
  Roll deconvolution: a method for reconstructing high-resolution
  images from Space Teles-cope data. In the case of the 2.4m Space
  Telescope a resolution of about 0.01 arc sec can be achieved. (c)
  The reconstruction of direct images (instead of autocorrelations)
  from speckle interfero-grams. Applications on data recorded with large
  telescopes are discussed. Reconstruction of high-resolution objective
  prism spectra with the speckle spectroscopy method.

---------------------------------------------------------
Title: Coherent arrays of separate optical telescopes in space
    project TRIO.
Authors: Labeyrie, A.; Kibblewhite, J.; de Graauw, T.; Noordam, J.;
   Weigelt, G.; Roussel, H.
1982vlbi.conf..477L    Altcode: 1983vlbi.conf..477L
  In space, 3 or more telescopes can be stabilized for coherent imaging
  at optical wavelengths, providing angular resolutions in the range
  10<SUP>-4</SUP> to 10<SUP>-5</SUP> arc-second. TRIO is one such
  instrument, currently studied by ESA. In its initial configuration,
  it incorporates a pair of one-meter telescopes and a central station
  where both light beams are recombined. A second step will be the
  expansion into a N-telescope array, spanning several kilometers.

---------------------------------------------------------
Title: Physikalisches Institut, Angewandte Optik. Jahresbericht
    für 1981.
Authors: Weigelt, G.
1982MitAG..56..111W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Speckle interferometry, speckle holography, speckle
    spectroscopy, and reconstruction of high-resolution images from
    Space Telescope data.
Authors: Weigelt, G.
1981siha.conf...95W    Altcode: 1982siha.conf...95W
  No abstract at ADS

---------------------------------------------------------
Title: Physikalisches Institut, Angewandte Optik. Jahresbericht
    für 1980.
Authors: Weigelt, G. P.
1981MitAG..53..115W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Spekle interferometry and speckle holography; techniques
    and limitations.
Authors: Weigelt, G.
1983LowOB...9..144W    Altcode: 1981LowOB...9..144W; 1983IAUCo..62..144W; 1983LowOB.167..144W
  The author discusses speckle interferometry and speckle holography
  measurements of double and triple stars. Speckle holography with the
  ESO 3.6 m telescope yielded direct images with a resolution of 0.03 arc
  second (diffraction limit). Finally the author discusses the speckle
  rotation method, which can be used to reconstruct high-resolution
  images from Space Telescope data.

---------------------------------------------------------
Title: Landolt-Börnstein. Numerical data and functional
relationships in science and technology. New series. Group VI:
    Astronomy, astrophysics and space research. Volume_2. Astronomy and
astrophysics. Extension and supplement to Volume_1. Subvolume a:
    methods - constants - solar system.
Authors: Hellwege, K. -H.; Schaifers, K.; Voigt, H. H.; Wolf, R.;
   Durrant, C. J.; Behr, A.; West, R. M.; Solf, J.; Weigelt, G.; Schmahl,
   G.; Staubert, R.; Trümper, J.; Lemke, D.; Hachenberg, O.; Enslin, H.;
   Fricke, W.; Bruzek, A.; Gondolatsch, F.; Ip, W. -H.; Axford, W. I.;
   Schubart, J.; Jessberger, E. K.; Rahe, J.; Fechtig, H.; Leinert, C.;
   Grün, E.; Pilipp, W.; Scholer, M.; Palme, H.; Suess, H. E.; Zeh,
   H. D.; Kirsten, T.
1981lndf.book.....H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Interferometric methods in optical astronomy
Authors: Weigelt, G.
1981cto..conf...28W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Spatial and temporal properties of speckle interferograms
Authors: Weigelt, G. P.
1980AIPC...65..731W    Altcode:
  In order to investigate the spatial structure of a three-dimensional
  speckle intensity distribution, we have studied the intensity
  correlation function of two arbitrary points in a 3-D-speckle field. The
  result is an extension of the lateral autocorrelation function of
  speckle interferograms first derived by L. I. Goldfischer. Speckle
  interferograms will fluctuate temporally if the random object
  (rough surface or air turbulence) varies in time. The temporal
  properties of speckle interferograms are important for various
  applications. Therefore we have developed a method for measuring the
  ”life time” of speckles. We record the temporal behaviour of the
  speckles with a 16mm-movie camera. The life time is determining by
  measuring the average crosscorrelation of adjacent frames on the
  16mm-motion picture films. We used this method to measure the life
  time of stellar speckle interferograms. Based on these studies it
  was possible to perform speckle interferometry measurements of rather
  faint astronomical objects.

---------------------------------------------------------
Title: Physikalisches Institut, Angewandte Optik. Jahresbericht
    für 1979.
Authors: Weigelt, G.
1980MitAG..49..107W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Stellar speckle interferometry and speckle holography at low
    light levels.
Authors: Weigelt, G. P.
1980SPIE..243..103W    Altcode:
  A brief review of speckle interferometry and speckle holography
  techniques is presented, along with examples of each. The application
  of speckle interferometry to the observation of objects near
  a point source, i.e., the reconstruction of direct images from
  speckle interferograms, is discussed, as is the application of the
  technique for observing faint astronomical objects, such as galactic
  nuclei and quasars, by measuring the single photon events in speckle
  interferograms. The two types of measurements were performed using
  the ESO 3.6 m telescope and other telescopes. The techniques have
  been used to overcome atmospheric image degradation completely,
  making the resolution of the speckle measurements about 30 times
  higher than that of ordinary astrophotography. Speckle interferometry
  up to 14th magnitude has been achieved, and the measurements yielded
  high resolution autocorrelations of the objects. Direct images were
  deconvolved using the speckle holography technique.

---------------------------------------------------------
Title: Optical processing of statistical data.
Authors: Bohm, H.; Lohmann, A. W.; Weigelt, G. P.
1980SPIE..232..191B    Altcode: 1980SPIE..231..191B
  No abstract at ADS

---------------------------------------------------------
Title: Spatial and temporal properties of speckle interferograms.
Authors: Weigelt, G. P.
1980ofd..conf..731W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Image restoration of Space Telescope photographs
Authors: Lohmann, A. W.; Weigelt, G. P.
1980aust.conf..353L    Altcode:
  Image deconvolution techniques used for improving the spatial resolution
  of the Space Telescope photographs down to about 0.015 arc-seconds
  are described.

---------------------------------------------------------
Title: Speckle interferometry measurements of astronomical objects
    with simulated multiple mirror telescopes.
Authors: Bialetzki, J.; Weigelt, G. P.
1980Optik..55..199B    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Applications of digital and optical-digital stellar speckle
    interferometry
Authors: Baier, G.; Ebersberger, J.; Lohmann, A.; Weigelt, G.
1980SPIE..264...58B    Altcode: 1981SPIE..264...58B
  The various applications of digital and optical/digital stellar
  speckle interferometry are examined. The following applications are
  investigated: (1) measurements of close binary stars; (2) dependence
  of the signal-to-noise ratio of the reconstructed autocorrelation
  on the exposure time of the speckle interferograms and on the number
  of processed speckle interferograms; and (3) measurement of the red
  giant Omicron Ceti. The advantage of stellar speckle interferometry
  over conventional astrophotography is shown to lie in its higher
  resolution. The advantage of optical processing is its higher speed
  when a large number of images has to be processed. The advantage of
  digital processing is its higher photometric accuracy and the high
  flexibility of the digital computer.

---------------------------------------------------------
Title: Speckle Interferometry and Speckle Holography with the
    1.5-METER and 3.6-METER ESO Telescopes
Authors: Ebersberger, J.; Weigelt, G.
1979Msngr..18...24E    Altcode:
  That great arch-enemy of all observing astronomers, the seeing, can be
  pacified with a method called speckle interferometry. For some years
  it has provided us with "real" pictures of close binary systems and
  even of the surfaces of some stars, e. g. the well-publicized image
  of Betelgeuze. So far, however, the speckle techniquewhich is based
  on very short exposures and very long focallengths-has been limited
  to comparatively bright objects. Drs. Johannes Ebersberger and
  Gerd Weigelt, from the Physics Institute of the Erlangen-Nürnberg
  University, Fed. Rep. of Germany, review recent speckle work at La
  Silla. It will be good news to many that they are reasonably confident
  that objects of magnitude 16 or even fainter may soon be within reach
  of speckle interferometry!

---------------------------------------------------------
Title: Physikalisches Institut, Angewandte Optik. Jahresbericht
    für 1978.
Authors: Weigelt, G.
1979MitAG..46...99W    Altcode: 1979MitAG..46...99.
  No abstract at ADS

---------------------------------------------------------
Title: Speckle interferometry and image reconstruction
Authors: Weigelt, G. P.
1979hars.proc...33W    Altcode: 1979IAUCo..50...33W
  The modifications of speckle interferometry which yields
  the autocorrelation of astronomical objects with diffraction
  resolution (i.e., 0.02 arc sec) and a 5 m telescope aperture are
  investigated. Three image reconstruction methods, (1) speckle holography
  for image reconstruction of objects near an unresolvable point source,
  (2) speckle masking for image reconstruction of binary stars, and (3)
  phase flipping for image reconstruction of centro-symmetric objects,
  are examined. A specific example describing the application of speckle
  holography to the binary star Zeta Cancri A-B and the triple star ADS
  3358 A-B-C is given, employing a 1.8 m telescope. The exposure time,
  resolution, brightness limit and isoplanicity for speckle techniques are
  also examined, correlating optically neighborhood speckle interferograms
  on a 16 mm motion picture film, recorded at 64 frames/sec.

---------------------------------------------------------
Title: Restoration of Images Degraded by the Atmosphere or Telescope
    Aberrations
Authors: Weigelt, G.
1979ipia.coll..422W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: High-resolution astrophotography new isoplanicity measurements
    and speckle holography applications.
Authors: Weigelt, G. P.
1979AcOpt..26.1351W    Altcode:
  No abstract at ADS

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Title: Speckle holography measurements of the stars Zeta Cancri and
    ADS 3358
Authors: Weigelt, G. P.
1978ApOpt..17.2660W    Altcode:
  The use of speckle holography in astronomical studies makes it possible
  to achieve angular resolution levels which are considerably better
  than those possible in conventional astrophotography. A description
  is presented of the first application of speckle holography to actual
  astronomical objects. An image was reconstructed of the double star Zeta
  Cancri A-B using Zeta Cancri C (located 6 arc seconds apart from A-B)
  as reference star. An image of the close double star in the triple
  system of ADS 3358 was also reconstructed and an image was obtained
  of the complete triple system of ADS 3358 A-B-C by generalizing the
  image processing procedure of speckle holography. Speckle holography
  is a modification of speckle interferometry. In both techniques
  high-resolution information is decoded from speckle interferograms by
  autocorrelating speckle interferograms.

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Title: Speckle interferometry measurements of 12 binary stars.
Authors: Weigelt, G. P.
1978A&A....68L...5W    Altcode:
  Binary-star measurements by speckle interferometry are reported. The
  measurements were performed with a 1-m telescope and with
  a 1.8-m telescope. The faintest resolved binary star was ADS
  2630 (8.9/9.3 mag; probably the faintest binary star measured by
  speckle interferometry). The autocorrelation of this binary star was
  reconstructed from only 40 speckle interferograms. The spectroscopic
  binary Alpha Aur (separation about 0.06 arcsec) was resolved with the
  1.8-m telescope. Four of the measured binary stars were Hyades binaries.

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Title: Speckle interferometry with a 1 m-telescope.
Authors: Weigelt, G. P.
1978A&A....67L..11W    Altcode:
  A speckle interferometer was constructed and used for binary star
  measurements. The speckle interferometry measurements were performed
  with a telescope of relatively small aperture (1 m - telescope of Hoher
  List observatory, West Germany). 30 speckle interferograms per binary
  star were found to be sufficient to obtain good autocorrelations.

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Title: Astronomical speckle interferometry and speckle holography.
Authors: Weigelt, G. P.
1978ohm..conf..551W    Altcode:
  No abstract at ADS

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Title: Image reconstruction from astronomical speckle interferograms.
Authors: Lohmann, A. W.; Weigelt, G. P.
1978otf..conf..479L    Altcode:
  Three modifications of speckle interferometry - speckle holography,
  speckle masking, and phase flipping - are described, and speckle
  interferometric observations of double stars, obtained with a telescope
  with 1-meter aperture, are presented. Speckle interferometry,
  a method proposed in 1970, is used to obtain higher resolution in
  astrophotography than can be obtained by ordinary procedures. Speckle
  holography can yield images of multiple stars and objects of any
  shape if there is an unresolvable star within the isoplanatic
  neighborhood. Speckle masking can be used to reconstruct images of
  double stars and similar double objects. Phase flipping can be applied
  to star disks when there is no unresolvable reference star within the
  isoplanatic neighborhood and to some other symmetric objects. Properties
  of speckle interferograms are considered.

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Title: Modified astronomical speckle interferometry “speckle
    masking”
Authors: Weigelt, G. P.
1977OptCo..21...55W    Altcode:
  A simple method (speckle masking) for the reconstruction of real
  images from astronomical speckle photographs is described. This method
  is applicable to a restricted class of objects that includes double
  stars. Double stars are the object most frequently observed with speckle
  interferometry techniques. Certain other kinds of objects can also be
  investigated by the speckle masking method, which should work also at
  low light levels. Theory and laboratory experiments are presented.

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Title: Speckle-Interferometrie. II. Ergebnisse und Möglichkeiten.
Authors: Lohmann, A.; Reinecke, M.; Ruder, H.; Weigelt, G.
1977S&W....16..284L    Altcode:
  No abstract at ADS

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Title: Extended speckle interferometry.
Authors: Weigelt, G. P.
1975oopg.conf..173W    Altcode:
  No abstract at ADS

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Title: Extended Speckle interferometry
Authors: Weigelt, G. P.
1975oopg.meet..173W    Altcode:
  Speckle interferometry was invented by Labeyrie (1970). The new
  approach when used in the form of a modification introduced by Liu
  and Lohmann (1973) makes it possible to obtain high-resolution images
  of astronomical objects. It is pointed out that the extended Speckle
  interferometry is very similar to Fourier holography. A description is
  given of the basic relations of Speckle interferometry, as invented,
  and of the characteristics of the extended Speckle interferometry.

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Title: Large field speckle interferometry.
Authors: Weigelt, G. P.
1975Optik..43..111W    Altcode:
  No abstract at ADS