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Author name code: sobotka
ADS astronomy entries on 2022-09-14
author:"Sobotka, Michal" 

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Title: Horizontal motions in sunspot penumbrae
Authors: Sobotka, Michal; Puschmann, Klaus G.
2022A&A...662A..13S    Altcode: 2022arXiv220503171S
  Context. A model of penumbral filaments represented by magnetoconvective
  cells was derived recently from spectropolarimetric observations. This
  model resolves many of the inconsistencies found in the relations
  between intensity, magnetic, and velocity patterns in sunspot
  penumbrae. <BR /> Aims: High-resolution observations of horizontal
  motions in the penumbra are needed to complement the concept of
  penumbrae obtained from spectropolarimetry. Time series of intensity
  images of a large sunspot in AR 10634 acquired with the Swedish
  Solar Telescope in the G band and red continuum are analysed. The
  two simultaneous time series last six hours and five minutes. <BR />
  Methods: Horizontal motions of penumbral grains (PGs), structures in
  dark bodies of filaments, the outer penumbral border, and G-band bright
  points are measured in time slices that cover the whole width of the
  penumbra and the neighbouring granulation. The spatial and temporal
  resolutions are 90 km and 20.1 s, respectively. <BR /> Results:
  In the inner penumbra, PGs move towards the umbra (inwards) with
  a mean speed of −0.7 km s<SUP>−1</SUP>. The direction of motion
  changes from inwards to outwards at approximately 60% of the penumbral
  width, and the mean speed increases gradually in the outer penumbra,
  approaching 0.5 km s<SUP>−1</SUP>. This speed is also typical of
  an expansion of the penumbra-granulation border during periods that
  typically last one hour and are followed by a fast contraction. The
  majority of the G-band bright points moves away from the sunspot,
  with a typical speed of 0.6 km s<SUP>−1</SUP>. High outward speeds,
  3.6 km s<SUP>−1</SUP> on average, are observed in dark bodies of
  penumbral filaments. <BR /> Conclusions: According to the model
  of penumbral filaments, it is suggested that the speeds detected
  in the dark bodies of filaments are associated with the Evershed
  flow and that the opposite directions of PG motions in the inner
  and outer penumbrae may be explained by the interaction of rising
  plasma in filament heads with a surrounding, differently inclined
  magnetic field. <P />Movies associated to Fig. 1 are available at <A
  href="https://www.aanda.org/10.1051/0004-6361/202243577/olm">https://www.aanda.org</A>

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Title: Multiple Stokes I inversions for inferring magnetic fields
    in the spectral range around Cr I 5782 Å
Authors: Kuckein, C.; Balthasar, H.; Quintero Noda, C.; Diercke, A.;
   Trelles Arjona, J. C.; Ruiz Cobo, B.; Felipe, T.; Denker, C.; Verma,
   M.; Kontogiannis, I.; Sobotka, M.
2021A&A...653A.165K    Altcode: 2021arXiv210711116K
  <BR /> Aims: In this work, we explore the spectral window containing
  Fraunhofer lines formed in the solar photosphere, around the
  magnetically sensitive Cr I lines at 5780.9, 5781.1, 5781.7, 5783.0,
  and 5783.8 Å, with Landé g-factors between 1.6 and 2.5. The goal is
  to simultaneously analyze 15 spectral lines, comprising Cr I, Cu I,
  Fe I, Mn I, and Si I lines, without the use of polarimetry, to infer
  the thermodynamic and magnetic properties in strongly magnetized
  plasmas using an inversion code. <BR /> Methods: Our study is based
  on a new setup at the Vacuum Tower Telescope (VTT, Tenerife), which
  includes fast spectroscopic scans in the wavelength range around
  the Cr I 5781.75 Å line. The oscillator strengths log(gf) of all
  spectral lines, as well as their response functions to temperature,
  magnetic field, and Doppler velocity, were determined using the Stokes
  Inversion based on Response functions (SIR) code. Snapshot 385 of the
  enhanced network simulation from the Bifrost code serves to synthesize
  all the lines, which are, in turn, inverted simultaneously with SIR to
  establish the best inversion strategy. We applied this strategy to VTT
  observations of a sunspot belonging to NOAA 12723 on 2018 September
  30 and compared the results to full-disk vector field data obtained
  with the Helioseismic and Magnetic Imager (HMI). <BR /> Results: The
  15 simultaneously inverted intensity profiles (Stokes I) delivered
  accurate temperatures and Doppler velocities when compared with the
  simulations. The derived magnetic fields and inclinations achieve
  the best level of accuracy when the fields are oriented along the
  line-of-sight (LOS) and less accurate when the fields are transverse to
  the LOS. In general, the results appear similar to what is reported in
  the HMI vector-field data, although some discrepancies exist. <BR />
  Conclusions: The analyzed spectral range has the potential to deliver
  thermal, dynamic, and magnetic information for strongly magnetized
  features on the Sun, such as pores and sunspots, even without the use
  of polarimetry. The highest sensitivity of the lines is found in the
  lower photosphere, on average, around log τ = −1. The multiple-line
  inversions provide smooth results across the whole field of view
  (FOV). The presented spectral range and inversion strategy will be
  used for future VTT observing campaigns.

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Title: IRIS observations of chromospheric heating by acoustic waves
    in solar quiet and active regions
Authors: Abbasvand, V.; Sobotka, M.; Švanda, M.; Heinzel, P.; Liu,
   W.; Mravcová, L.
2021A&A...648A..28A    Altcode: 2021arXiv210208678A
  <BR /> Aims: To study the heating of solar chromospheric magnetic and
  nonmagnetic regions by acoustic and magnetoacoustic waves, the deposited
  acoustic-energy flux derived from observations of strong chromospheric
  lines is compared with the total integrated radiative losses. <BR />
  Methods: A set of 23 quiet-Sun and weak-plage regions were observed in
  the Mg II k and h lines with the Interface Region Imaging Spectrograph
  (IRIS). The deposited acoustic-energy flux was derived from Doppler
  velocities observed at two different geometrical heights corresponding
  to the middle and upper chromosphere. A set of scaled nonlocal
  thermodynamic equilibrium 1D hydrostatic semi-empirical models -
  obtained by fitting synthetic to observed line profiles - was applied
  to compute the radiative losses. The characteristics of observed waves
  were studied by means of a wavelet analysis. <BR /> Results: Observed
  waves propagate upward at supersonic speed. In the quiet chromosphere,
  the deposited acoustic flux is sufficient to balance the radiative
  losses and maintain the semi-empirical temperatures in the layers under
  study. In the active-region chromosphere, the comparison shows that
  the contribution of acoustic-energy flux to the radiative losses is
  only 10−30%. <BR /> Conclusions: Acoustic and magnetoacoustic waves
  play an important role in the chromospheric heating, depositing a main
  part of their energy in the chromosphere. Acoustic waves compensate
  for a substantial fraction of the chromospheric radiative losses in
  quiet regions. In active regions, their contribution is too small to
  balance the radiative losses and the chromosphere has to be heated by
  other mechanisms.

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Title: Evolution and motions of magnetic fragments during the active
region formation and decay: A statistical study
Authors: Švanda, Michal; Sobotka, Michal; Mravcová, Lucia;
   Výbošťoková, Tatiana
2021A&A...647A.146S    Altcode: 2021arXiv210202807S
  Context. The evolution of solar active regions is still not fully
  understood. The growth and decay of active regions have mostly been
  studied in case-by-case studies. <BR /> Aims: Instead of studying the
  evolution of active regions case by case, we performed a large-scale
  statistical study to find indications for the statistically most
  frequent scenario. <BR /> Methods: We studied a large sample of active
  regions recorded by the Helioseismic and Magnetic Imager instrument. The
  sample was split into two groups: forming (367 members) and decaying
  (679 members) active regions. We tracked individual dark features
  (i.e. those that are assumed to be intensity counterparts of magnetised
  fragments from small objects to proper sunspots) and followed their
  evolution. We investigated the statistically most often locations
  of fragment merging and splitting as well as their properties. <BR
  /> Results: Our results confirm that statistically, sunspots form
  by merging events of smaller fragments. The coalescence process is
  driven by turbulent diffusion in a process similar to random-walk,
  where supergranular flows seem to play an important role. The number
  of appearing fragments does not seem to significantly correlate with
  the number of sunspots formed. The formation seems to be consistent
  with the magnetic field accumulation. Statistically, the merging occurs
  most often between a large and a much smaller object. The decay of the
  active region seems to take place preferably by a process similar to
  the erosion.

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Title: Observational study of chromospheric heating by acoustic waves
Authors: Abbasvand, V.; Sobotka, M.; Švanda, M.; Heinzel, P.;
   García-Rivas, M.; Denker, C.; Balthasar, H.; Verma, M.; Kontogiannis,
   I.; Koza, J.; Korda, D.; Kuckein, C.
2020A&A...642A..52A    Altcode: 2020arXiv200802688A
  <BR /> Aims: Our aim is to investigate the role of acoustic and
  magneto-acoustic waves in heating the solar chromosphere. Observations
  in strong chromospheric lines are analyzed by comparing the deposited
  acoustic-energy flux with the total integrated radiative losses. <BR
  /> Methods: Quiet-Sun and weak-plage regions were observed in the Ca
  II 854.2 nm and Hα lines with the Fast Imaging Solar Spectrograph
  (FISS) at the 1.6-m Goode Solar Telescope on 2019 October 3 and
  in the Hα and Hβ lines with the echelle spectrograph attached
  to the Vacuum Tower Telescope on 2018 December 11 and 2019 June
  6. The deposited acoustic energy flux at frequencies up to 20 mHz
  was derived from Doppler velocities observed in line centers and
  wings. Radiative losses were computed by means of a set of scaled
  non-local thermodynamic equilibrium 1D hydrostatic semi-empirical
  models obtained by fitting synthetic to observed line profiles. <BR />
  Results: In the middle chromosphere (h = 1000-1400 km), the radiative
  losses can be fully balanced by the deposited acoustic energy flux in
  a quiet-Sun region. In the upper chromosphere (h &gt; 1400 km), the
  deposited acoustic flux is small compared to the radiative losses in
  quiet as well as in plage regions. The crucial parameter determining
  the amount of deposited acoustic flux is the gas density at a given
  height. <BR /> Conclusions: The acoustic energy flux is efficiently
  deposited in the middle chromosphere, where the density of gas is
  sufficiently high. About 90% of the available acoustic energy flux in
  the quiet-Sun region is deposited in these layers, and thus it is a
  major contributor to the radiative losses of the middle chromosphere. In
  the upper chromosphere, the deposited acoustic flux is too low, so that
  other heating mechanisms have to act to balance the radiative cooling.

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Title: High-resolution spectroscopy of a surge in an emerging
    flux region
Authors: Verma, M.; Denker, C.; Diercke, A.; Kuckein, C.; Balthasar,
   H.; Dineva, E.; Kontogiannis, I.; Pal, P. S.; Sobotka, M.
2020A&A...639A..19V    Altcode: 2020arXiv200503966V
  <BR /> Aims: The regular pattern of quiet-Sun magnetic fields was
  disturbed by newly emerging magnetic flux, which led a day later to
  two homologous surges after renewed flux emergence, affecting all
  atmospheric layers. Hence, simultaneous observations in different
  atmospheric heights are needed to understand the interaction of
  rising flux tubes with the surrounding plasma, in particular by
  exploiting the important diagnostic capabilities provided by the
  strong chromospheric Hα line regarding morphology and energetic
  processes in active regions. <BR /> Methods: A newly emerged active
  region NOAA 12722 was observed with the Vacuum Tower Telescope (VTT)
  at Observatorio del Teide, Tenerife, Spain, on 11 September 2018. High
  spectral resolution observations using the echelle spectrograph in the
  chromospheric Hαλ6562.8 Å line were obtained in the early growth
  phase. Noise-stripped Hα line profiles yield maps of line-core and
  bisector velocities, which were contrasted with velocities inferred
  from Cloud Model inversions. A high-resolution imaging system recorded
  simultaneously broad- and narrowband Hα context images. The Solar
  Dynamics Observatory provided additional continuum images, line-of-sight
  (LOS) magnetograms, and UV and extreme UV (EUV) images, which link the
  different solar atmospheric layers. <BR /> Results: The active region
  started as a bipolar region with continuous flux emergence when a new
  flux system emerged in the leading part during the VTT observations,
  resulting in two homologous surges. While flux cancellation at the
  base of the surges provided the energy for ejecting the cool plasma,
  strong proper motions of the leading pores changed the magnetic
  field topology making the region susceptible to surging. Despite
  the surge activity in the leading part, an arch filament system in
  the trailing part of the old flux remained stable. Thus, stable
  and violently expelled mass-loaded ascending magnetic structures
  can coexist in close proximity. Investigating the height dependence
  of LOS velocities revealed the existence of neighboring strong up-
  and downflows. However, downflows occur with a time lag. The opacity
  of the ejected cool plasma decreases with distance from the base of
  the surge, while the speed of the ejecta increases. The location at
  which the surge becomes invisible in Hα corresponds to the interface
  where the surge brightens in He IIλ304 Å. Broad-shouldered and
  dual-lobed Hα profiles suggests accelerated or decelerated and
  highly structured LOS plasma flows. Significantly broadened Hα
  profiles imply significant heating at the base of the surges, which
  is also supported by bright kernels in UV and EUV images uncovered
  by swaying motions of dark fibrils at the base of the surges. <BR />
  Conclusions: The interaction of newly emerging flux with pre-existing
  flux concentrations of a young, diffuse active region provided
  suitable conditions for two homologous surges. High-resolution
  spectroscopy revealed broadened and dual-lobed Hα profiles
  tracing accelerated or decelerated flows of cool plasma along the
  multi-threaded structure of the surge. <P />Movies are available at <A
  href="https://www.aanda.org/10.1051/0004-6361/201936762/olm">https://www.aanda.org</A>

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Title: Chromospheric Heating by Acoustic Waves Compared to Radiative
    Cooling. II. Revised Grid of Models
Authors: Abbasvand, Vahid; Sobotka, Michal; Heinzel, Petr; Švanda,
   Michal; Jurčák, Jan; del Moro, Dario; Berrilli, Francesco
2020ApJ...890...22A    Altcode: 2020arXiv200103413A
  Acoustic and magnetoacoustic waves are considered to be possible
  agents of chromospheric heating. We present a comparison of deposited
  acoustic energy flux with total integrated radiative losses in the
  middle chromosphere of the quiet Sun and a weak plage. The comparison
  is based on a consistent set of high-resolution observations acquired
  by the Interferometric Bidimensional Spectrometer instrument in the
  Ca II 854.2 nm line. The deposited acoustic-flux energy is derived
  from Doppler velocities observed in the line core and a set of 1737
  non-local thermodynamic equilibrium 1D hydrostatic semi-empirical
  models, which also provide the radiative losses. The models are obtained
  by scaling the temperature and column mass of five initial models by
  Vernazza et al. (1981; VAL) B-F to get the best fit of synthetic to
  observed profiles. We find that the deposited acoustic-flux energy in
  the quiet-Sun chromosphere balances 30%-50% of the energy released by
  radiation. In the plage, it contributes by 50%-60% in locations with
  vertical magnetic field and 70%-90% in regions where the magnetic
  field is inclined more than 50° to the solar surface normal.

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Title: Spectropolarimetric Observations of an Arch Filament System
    with GREGOR
Authors: Balthasar, H.; Gömöry, P.; González Manrique, S. J.;
   Kuckein, C.; Kučera, A.; Schwartz, P.; Berkefeld, T.; Collados, M.;
   Denker, C.; Feller, A.; Hofmann, A.; Schlichenmaier, R.; Schmidt,
   D.; Schmidt, W.; Sigwarth, M.; Sobotka, M.; Solanki, S. K.; Soltau,
   D.; Staude, J.; Strassmeier, K. G.; von der Lühe, O.
2019ASPC..526..217B    Altcode: 2018arXiv180401789B
  We observed an arch filament system (AFS) in a sunspot group with the
  GREGOR Infrared Spectrograph attached to the GREGOR solar telescope. The
  AFS was located between the leading sunspot of negative polarity and
  several pores of positive polarity forming the following part of the
  sunspot group. We recorded five spectro-polarimetric scans of this
  region. The spectral range included the spectral lines Si I 1082.7
  nm, He I 1083.0 nm, and Ca I 1083.9 nm. In this work we concentrate
  on the silicon line which is formed in the upper photosphere. The
  line profiles are inverted with the code 'Stokes Inversion based
  on Response functions' to obtain the magnetic field vector. The
  line-of-sight velocities are determined independently with a Fourier
  phase method. Maximum velocities are found close to the ends of AFS
  fibrils. These maximum values amount to 2.4 km s<SUP>-1</SUP> next
  to the pores and to 4 km s<SUP>-1</SUP> at the sunspot side. Between
  the following pores, we encounter an area of negative polarity that
  is decreasing during the five scans. We interpret this by new emerging
  positive flux in this area canceling out the negative flux. In summary,
  our findings confirm the scenario that rising magnetic flux tubes
  cause the AFS.

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Title: Photospheric Magnetic Fields of the Trailing Sunspots in
    Active Region NOAA 12396
Authors: Verma, M.; Balthasar, H.; Denker, C.; Böhm, F.; Fischer,
   C. E.; Kuckein, C.; González Manrique, S. J.; Sobotka, M.; Bello
   González, N.; Diercke, A.; Berkefeld, T.; Collados, M.; Feller, A.;
   Hofmann, A.; Lagg, A.; Nicklas, H.; Orozco Suárez, D.; Pastor Yabar,
   A.; Rezaei, R.; Schlichenmaier, R.; Schmidt, D.; Schmidt, W.; Sigwarth,
   M.; Solanki, S. K.; Soltau, D.; Staude, J.; Strassmeier, K.; Volkmer,
   R.; von der Lühe, O.; Waldmann, T.
2019ASPC..526..291V    Altcode: 2018arXiv180507752V
  The solar magnetic field is responsible for all aspects of solar
  activity. Sunspots are the main manifestation of the ensuing solar
  activity. Combining high-resolution and synoptic observations has
  the ambition to provide a comprehensive description of the sunspot
  growth and decay processes. Active region NOAA 12396 emerged on 2015
  August 3 and was observed three days later with the 1.5-meter GREGOR
  solar telescope on 2015 August 6. High-resolution spectropolarimetric
  data from the GREGOR Infrared Spectrograph (GRIS) are obtained in the
  photospheric lines Si I λ1082.7 nm and Ca I λ1083.9 nm, together
  with the chromospheric He I λ1083.0 nm triplet. These near-infrared
  spectropolarimetric observations were complemented by synoptic
  line-of-sight magnetograms and continuum images of the Helioseismic
  and Magnetic Imager (HMI) and EUV images of the Atmospheric Imaging
  Assembly (AIA) on board the Solar Dynamics Observatory (SDO).

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Title: High-resolution imaging and near-infrared spectroscopy of
    penumbral decay
Authors: Verma, M.; Denker, C.; Balthasar, H.; Kuckein, C.; Rezaei,
   R.; Sobotka, M.; Deng, N.; Wang, H.; Tritschler, A.; Collados, M.;
   Diercke, A.; González Manrique, S. J.
2018A&A...614A...2V    Altcode: 2018arXiv180103686V
  <BR /> Aims: Combining high-resolution spectropolarimetric and imaging
  data is key to understanding the decay process of sunspots as it
  allows us to scrutinize the velocity and magnetic fields of sunspots
  and their surroundings. <BR /> Methods: Active region NOAA 12597
  was observed on 2016 September 24 with the 1.5-meter GREGOR solar
  telescope using high-spatial-resolution imaging as well as imaging
  spectroscopy and near-infrared (NIR) spectropolarimetry. Horizontal
  proper motions were estimated with local correlation tracking, whereas
  line-of-sight (LOS) velocities were computed with spectral line fitting
  methods. The magnetic field properties were inferred with the "Stokes
  Inversions based on Response functions" (SIR) code for the Si I and Ca
  I NIR lines. <BR /> Results: At the time of the GREGOR observations,
  the leading sunspot had two light bridges indicating the onset of
  its decay. One of the light bridges disappeared, and an elongated,
  dark umbral core at its edge appeared in a decaying penumbral sector
  facing the newly emerging flux. The flow and magnetic field properties
  of this penumbral sector exhibited weak Evershed flow, moat flow, and
  horizontal magnetic field. The penumbral gap adjacent to the elongated
  umbral core and the penumbra in that penumbral sector displayed LOS
  velocities similar to granulation. The separating polarities of a new
  flux system interacted with the leading and central part of the already
  established active region. As a consequence, the leading spot rotated
  55° clockwise over 12 h. <BR /> Conclusions: In the high-resolution
  observations of a decaying sunspot, the penumbral filaments facing the
  flux emergence site contained a darkened area resembling an umbral core
  filled with umbral dots. This umbral core had velocity and magnetic
  field properties similar to the sunspot umbra. This implies that the
  horizontal magnetic fields in the decaying penumbra became vertical
  as observed in flare-induced rapid penumbral decay, but on a very
  different time-scale.

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Title: Václav Bumba (1925 - 2018)
Authors: Kotrč, Pavel; Heinzel, Petr; Sobotka, Michal; Ambrož,
   Pavel; van Driel-Gesztelyi, Lidia
2018SoPh..293...40K    Altcode:
  No abstract at ADS

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Title: The Temperature - Magnetic Field Relation in Observed and
    Simulated Sunspots
Authors: Sobotka, Michal; Rezaei, Reza
2017SoPh..292..188S    Altcode: 2017arXiv171109821S
  Observations of the relation between continuum intensity and magnetic
  field strength in sunspots have been made for nearly five decades. This
  work presents full-Stokes measurements of the full-split (g =3 ) line
  Fe I 1564.85 nm with a spatial resolution of 0.5<SUP>″</SUP> obtained
  with the GREGOR Infrared Spectrograph in three large sunspots. The
  continuum intensity is corrected for instrumental scattered light, and
  the brightness temperature is calculated. Magnetic field strength and
  inclination are derived directly from the line split and the ratio of
  Stokes components. The continuum intensity (temperature) relations to
  the field strength are studied separately in the umbra, light bridges,
  and penumbra. The results are consistent with previous studies, and it
  was found that the scatter of values in the relations increases with
  increasing spatial resolution thanks to resolved fine structures. The
  observed relations show trends common for the umbra, light bridges, and
  the inner penumbra, while the outer penumbra has a weaker magnetic field
  than the inner penumbra at equal continuum intensities. This fact can
  be interpreted in terms of the interlocking comb magnetic structure of
  the penumbra. A comparison with data obtained from numerical simulations
  was made. The simulated data generally have a stronger magnetic field
  and a weaker continuum intensity than the observations, which may
  be explained by stray light and limited spatial resolution of the
  observations, and also by photometric inaccuracies of the simulations.

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Title: Ca II 8542 Å brightenings induced by a solar microflare
Authors: Kuckein, C.; Diercke, A.; González Manrique, S. J.; Verma,
   M.; Löhner-Böttcher, J.; Socas-Navarro, H.; Balthasar, H.; Sobotka,
   M.; Denker, C.
2017A&A...608A.117K    Altcode: 2017arXiv170906861K
  <BR /> Aims: We study small-scale brightenings in Ca II 8542 Å
  line-core images to determine their nature and effect on localized
  heating and mass transfer in active regions. <BR /> Methods:
  High-resolution two-dimensional spectroscopic observations of a solar
  active region in the near-infrared Ca II 8542 Å line were acquired
  with the GREGOR Fabry-Pérot Interferometer attached to the 1.5-m GREGOR
  telescope. Inversions of the spectra were carried out using the NICOLE
  code to infer temperatures and line-of-sight (LOS) velocities. Response
  functions of the Ca II line were computed for temperature and LOS
  velocity variations. Filtergrams of the Atmospheric Imaging Assembly
  (AIA) and magnetograms of the Helioseismic and Magnetic Imager (HMI)
  were coaligned to match the ground-based observations and to follow the
  Ca II brightenings along all available layers of the atmosphere. <BR />
  Results: We identified three brightenings of sizes up to 2” × 2”
  that appeared in the Ca II 8542 Å line-core images. Their lifetimes
  were at least 1.5 min. We found evidence that the brightenings belonged
  to the footpoints of a microflare (MF). The properties of the observed
  brightenings disqualified the scenarios of Ellerman bombs or Interface
  Region Imaging Spectrograph (IRIS) bombs. However, this MF shared some
  common properties with flaring active-region fibrils or flaring arch
  filaments (FAFs): (1) FAFs and MFs are both apparent in chromospheric
  and coronal layers according to the AIA channels; and (2) both show
  flaring arches with lifetimes of about 3.0-3.5 min and lengths of
  20” next to the brightenings. The inversions revealed heating by
  600 K at the footpoint location in the ambient chromosphere during
  the impulsive phase. Connecting the footpoints, a dark filamentary
  structure appeared in the Ca II line-core images. Before the
  start of the MF, the spectra of this structure already indicated
  average blueshifts, meaning upward motions of the plasma along the
  LOS. During the impulsive phase, these velocities increased up to -
  2.2 km s<SUP>-1</SUP>. The structure did not disappear during the
  observations. Downflows dominated at the footpoints. However, in
  the upper photosphere, slight upflows occurred during the impulsive
  phase. Hence, bidirectional flows are present in the footpoints
  of the MF. <BR /> Conclusions: We detected Ca II brightenings that
  coincided with the footpoint location of an MF. The MF event led to
  a rise of plasma in the upper photosphere, both before and during the
  impulsive phase. Excess mass, previously raised to at most chromospheric
  layers, slowly drained downward along arches toward the footpoints
  of the MF. <P />The movie associated to Fig. 2 is available at <A
  href="http://www.aanda.org/10.1051/0004-6361/201731319/olm">http://www.aanda.org</A>

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Title: Flows along arch filaments observed in the GRIS `very fast
    spectroscopic mode'
Authors: González Manrique, S. J.; Denker, C.; Kuckein, C.; Pastor
   Yabar, A.; Collados, M.; Verma, M.; Balthasar, H.; Diercke, A.;
   Fischer, C. E.; Gömöry, P.; Bello González, N.; Schlichenmaier,
   R.; Cubas Armas, M.; Berkefeld, T.; Feller, A.; Hoch, S.; Hofmann,
   A.; Lagg, A.; Nicklas, H.; Orozco Suárez, D.; Schmidt, D.; Schmidt,
   W.; Sigwarth, M.; Sobotka, M.; Solanki, S. K.; Soltau, D.; Staude,
   J.; Strassmeier, K. G.; Volkmer, R.; von der Lühe, O.; Waldmann, T.
2017IAUS..327...28G    Altcode: 2017arXiv170102206G
  A new generation of solar instruments provides improved spectral,
  spatial, and temporal resolution, thus facilitating a better
  understanding of dynamic processes on the Sun. High-resolution
  observations often reveal multiple-component spectral line profiles,
  e.g., in the near-infrared He i 10830 Å triplet, which provides
  information about the chromospheric velocity and magnetic fine
  structure. We observed an emerging flux region, including two small
  pores and an arch filament system, on 2015 April 17 with the `very
  fast spectroscopic mode' of the GREGOR Infrared Spectrograph (GRIS)
  situated at the 1.5-meter GREGOR solar telescope at Observatorio del
  Teide, Tenerife, Spain. We discuss this method of obtaining fast (one
  per minute) spectral scans of the solar surface and its potential to
  follow dynamic processes on the Sun. We demonstrate the performance
  of the `very fast spectroscopic mode' by tracking chromospheric
  high-velocity features in the arch filament system.

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Title: Center-to-limb variation of the velocity field in and around
    a sunspot with light-bridges
Authors: Denker, Carsten; Verma, Meetu; Balthasar, Horst; Diercke,
   Andrea; González Manrique, S. J.; Löhner-Böttcher, Johannes;
   Kuckein, Christoph; Sobotka, Michal
2017psio.confE.104D    Altcode:
  No abstract at ADS

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Title: Velocity fields in sunspots derived from observations with
    the GREGOR Fabry-Pérot Interferometer
Authors: Balthasar, H.; Denker, C.; Diercke, A.; González Manrique,
   S. J.; Kuckein, C.; Louis, R. E.; Verma, M., Löhner-Böttcher, J.;
   Sobotka, M.
2017psio.confE.105B    Altcode:
  No abstract at ADS

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Title: A study on Ca II 854.2 nm emission in a sunspot umbra using
    a thin cloud model
Authors: Hamedivafa, H.; Sobotka, M.; Bellot Rubio, L.; Esteban
   Pozuelo, S.
2016arXiv161206636H    Altcode:
  In the present work, we introduce and explain a method of solution
  of the radiative transfer equation based on a thin cloud model. The
  efficiency of this method to retrieve dynamical chromospheric parameters
  from Stokes I profiles of Ca II 854.2 nm line showing spectral emission
  is investigated. The analyzed data were recorded with the Crisp
  Imaging Spectro-Polarimeter (CRISP) at Swedish 1-m Solar Telescope
  on La Palma on 2012 May 5 between 8:11 - 9:00 UT. The target was a
  large decaying sunspot (NOAA 11471) at heliocentric position W 15
  deg S 19 deg. This sunspot has a large umbra divided into two umbral
  cores (UCs). One of these UCs shows steady spectral emission in both
  Ca II 854.2 nm and H-alpha lines, where downflows prevail. The other
  UC shows intermittent spectral emission only in Ca II 854.2 nm, when
  umbral flashes are propagating. The statistics of the obtained Doppler
  velocities in both UCs is discussed.

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Title: Slipping reconnection in a solar flare observed in high
    resolution with the GREGOR solar telescope
Authors: Sobotka, M.; Dudík, J.; Denker, C.; Balthasar, H.; Jurčák,
   J.; Liu, W.; Berkefeld, T.; Collados Vera, M.; Feller, A.; Hofmann,
   A.; Kneer, F.; Kuckein, C.; Lagg, A.; Louis, R. E.; von der Lühe, O.;
   Nicklas, H.; Schlichenmaier, R.; Schmidt, D.; Schmidt, W.; Sigwarth,
   M.; Solanki, S. K.; Soltau, D.; Staude, J.; Strassmeier, K. G.;
   Volkmer, R.; Waldmann, T.
2016A&A...596A...1S    Altcode: 2016arXiv160500464S
  A small flare ribbon above a sunspot umbra in active region 12205 was
  observed on November 7, 2014, at 12:00 UT in the blue imaging channel
  of the 1.5 m GREGOR telescope, using a 1 Å Ca II H interference
  filter. Context observations from the Atmospheric Imaging Assembly
  (AIA) onboard the Solar Dynamics Observatory (SDO), the Solar Optical
  Telescope (SOT) onboard Hinode, and the Interface Region Imaging
  Spectrograph (IRIS) show that this ribbon is part of a larger one
  that extends through the neighboring positive polarities and also
  participates in several other flares within the active region. We
  reconstructed a time series of 140 s of Ca II H images by means of the
  multiframe blind deconvolution method, which resulted in spatial and
  temporal resolutions of 0.1″ and 1 s. Light curves and horizontal
  velocities of small-scale bright knots in the observed flare ribbon
  were measured. Some knots are stationary, but three move along the
  ribbon with speeds of 7-11 km s<SUP>-1</SUP>. Two of them move in the
  opposite direction and exhibit highly correlated intensity changes,
  which provides evidence of a slipping reconnection at small spatial
  scales. <P />Movies associated to Figs. 1 and 2 are available at <A
  href="http://www.aanda.org/10.1051/0004-6361/201527966/olm">http://www.aanda.org</A>

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Title: Deep probing of the photospheric sunspot penumbra: no evidence
    of field-free gaps
Authors: Borrero, J. M.; Asensio Ramos, A.; Collados, M.;
   Schlichenmaier, R.; Balthasar, H.; Franz, M.; Rezaei, R.; Kiess, C.;
   Orozco Suárez, D.; Pastor Yabar, A.; Berkefeld, T.; von der Lühe,
   O.; Schmidt, D.; Schmidt, W.; Sigwarth, M.; Soltau, D.; Volkmer, R.;
   Waldmann, T.; Denker, C.; Hofmann, A.; Staude, J.; Strassmeier, K. G.;
   Feller, A.; Lagg, A.; Solanki, S. K.; Sobotka, M.; Nicklas, H.
2016A&A...596A...2B    Altcode: 2016arXiv160708165B
  Context. Some models for the topology of the magnetic field in
  sunspot penumbrae predict regions free of magnetic fields or with
  only dynamically weak fields in the deep photosphere. <BR /> Aims:
  We aim to confirm or refute the existence of weak-field regions in
  the deepest photospheric layers of the penumbra. <BR /> Methods:
  We investigated the magnetic field at log τ<SUB>5</SUB> = 0 is
  by inverting spectropolarimetric data of two different sunspots
  located very close to disk center with a spatial resolution of
  approximately 0.4-0.45”. The data have been recorded using the GRIS
  instrument attached to the 1.5-m solar telescope GREGOR at the El
  Teide observatory. The data include three Fe I lines around 1565 nm,
  whose sensitivity to the magnetic field peaks half a pressure scale
  height deeper than the sensitivity of the widely used Fe I spectral
  line pair at 630 nm. Before the inversion, the data were corrected
  for the effects of scattered light using a deconvolution method with
  several point spread functions. <BR /> Results: At log τ<SUB>5</SUB>
  = 0 we find no evidence of regions with dynamically weak (B&lt;
  500 Gauss) magnetic fields in sunspot penumbrae. This result is much
  more reliable than previous investigations made on Fe I lines at 630
  nm. Moreover, the result is independent of the number of nodes employed
  in the inversion, is independent of the point spread function used to
  deconvolve the data, and does not depend on the amount of stray light
  (I.e., wide-angle scattered light) considered.

---------------------------------------------------------
Title: Spectropolarimetric observations of an arch filament system
    with the GREGOR solar telescope
Authors: Balthasar, H.; Gömöry, P.; González Manrique, S. J.;
   Kuckein, C.; Kavka, J.; Kučera, A.; Schwartz, P.; Vašková, R.;
   Berkefeld, T.; Collados Vera, M.; Denker, C.; Feller, A.; Hofmann,
   A.; Lagg, A.; Nicklas, H.; Orozco Suárez, D.; Pastor Yabar, A.;
   Rezaei, R.; Schlichenmaier, R.; Schmidt, D.; Schmidt, W.; Sigwarth,
   M.; Sobotka, M.; Solanki, S. K.; Soltau, D.; Staude, J.; Strassmeier,
   K. G.; Volkmer, R.; von der Lühe, O.; Waldmann, T.
2016AN....337.1050B    Altcode: 2016arXiv160901514B
  Arch filament systems occur in active sunspot groups, where a fibril
  structure connects areas of opposite magnetic polarity, in contrast to
  active region filaments that follow the polarity inversion line. We
  used the GREGOR Infrared Spectrograph (GRIS) to obtain the full
  Stokes vector in the spectral lines Si I λ1082.7 nm, He I λ1083.0
  nm, and Ca I λ1083.9 nm. We focus on the near-infrared calcium line
  to investigate the photospheric magnetic field and velocities, and
  use the line core intensities and velocities of the helium line to
  study the chromospheric plasma. The individual fibrils of the arch
  filament system connect the sunspot with patches of magnetic polarity
  opposite to that of the spot. These patches do not necessarily coincide
  with pores, where the magnetic field is strongest. Instead, areas are
  preferred not far from the polarity inversion line. These areas exhibit
  photospheric downflows of moderate velocity, but significantly higher
  downflows of up to 30 km s<SUP>-1</SUP> in the chromospheric helium
  line. Our findings can be explained with new emerging flux where the
  matter flows downward along the field lines of rising flux tubes,
  in agreement with earlier results.

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Title: Magnetic fields of opposite polarity in sunspot penumbrae
Authors: Franz, M.; Collados, M.; Bethge, C.; Schlichenmaier, R.;
   Borrero, J. M.; Schmidt, W.; Lagg, A.; Solanki, S. K.; Berkefeld,
   T.; Kiess, C.; Rezaei, R.; Schmidt, D.; Sigwarth, M.; Soltau, D.;
   Volkmer, R.; von der Luhe, O.; Waldmann, T.; Orozco, D.; Pastor Yabar,
   A.; Denker, C.; Balthasar, H.; Staude, J.; Hofmann, A.; Strassmeier,
   K.; Feller, A.; Nicklas, H.; Kneer, F.; Sobotka, M.
2016A&A...596A...4F    Altcode: 2016arXiv160800513F
  Context. A significant part of the penumbral magnetic field returns
  below the surface in the very deep photosphere. For lines in the
  visible, a large portion of this return field can only be detected
  indirectly by studying its imprints on strongly asymmetric and
  three-lobed Stokes V profiles. Infrared lines probe a narrow layer
  in the very deep photosphere, providing the possibility of directly
  measuring the orientation of magnetic fields close to the solar
  surface. <BR /> Aims: We study the topology of the penumbral magnetic
  field in the lower photosphere, focusing on regions where it returns
  below the surface. <BR /> Methods: We analyzed 71 spectropolarimetric
  datasets from Hinode and from the GREGOR infrared spectrograph. We
  inferred the quality and polarimetric accuracy of the infrared data
  after applying several reduction steps. Techniques of spectral
  inversion and forward synthesis were used to test the detection
  algorithm. We compared the morphology and the fractional penumbral
  area covered by reversed-polarity and three-lobed Stokes V profiles for
  sunspots at disk center. We determined the amount of reversed-polarity
  and three-lobed Stokes V profiles in visible and infrared data of
  sunspots at various heliocentric angles. From the results, we computed
  center-to-limb variation curves, which were interpreted in the context
  of existing penumbral models. <BR /> Results: Observations in visible
  and near-infrared spectral lines yield a significant difference in the
  penumbral area covered by magnetic fields of opposite polarity. In
  the infrared, the number of reversed-polarity Stokes V profiles is
  smaller by a factor of two than in the visible. For three-lobed Stokes
  V profiles the numbers differ by up to an order of magnitude.

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Title: Horizontal flow fields in and around a small active region. The
    transition period between flux emergence and decay
Authors: Verma, M.; Denker, C.; Balthasar, H.; Kuckein, C.; González
   Manrique, S. J.; Sobotka, M.; Bello González, N.; Hoch, S.; Diercke,
   A.; Kummerow, P.; Berkefeld, T.; Collados, M.; Feller, A.; Hofmann,
   A.; Kneer, F.; Lagg, A.; Löhner-Böttcher, J.; Nicklas, H.; Pastor
   Yabar, A.; Schlichenmaier, R.; Schmidt, D.; Schmidt, W.; Schubert,
   M.; Sigwarth, M.; Solanki, S. K.; Soltau, D.; Staude, J.; Strassmeier,
   K. G.; Volkmer, R.; von der Lühe, O.; Waldmann, T.
2016A&A...596A...3V    Altcode: 2016arXiv160507462V
  Context. The solar magnetic field is responsible for all aspects
  of solar activity. Thus, emergence of magnetic flux at the surface
  is the first manifestation of the ensuing solar activity. <BR />
  Aims: Combining high-resolution and synoptic observations aims to
  provide a comprehensive description of flux emergence at photospheric
  level and of the growth process that eventually leads to a mature
  active region. <BR /> Methods: The small active region NOAA 12118
  emerged on 2014 July 17 and was observed one day later with the 1.5-m
  GREGOR solar telescope on 2014 July 18. High-resolution time-series
  of blue continuum and G-band images acquired in the blue imaging
  channel (BIC) of the GREGOR Fabry-Pérot Interferometer (GFPI) were
  complemented by synoptic line-of-sight magnetograms and continuum
  images obtained with the Helioseismic and Magnetic Imager (HMI) onboard
  the Solar Dynamics Observatory (SDO). Horizontal proper motions and
  horizontal plasma velocities were computed with local correlation
  tracking (LCT) and the differential affine velocity estimator (DAVE),
  respectively. Morphological image processing was employed to measure
  the photometric and magnetic area, magnetic flux, and the separation
  profile of the emerging flux region during its evolution. <BR />
  Results: The computed growth rates for photometric area, magnetic
  area, and magnetic flux are about twice as high as the respective
  decay rates. The space-time diagram using HMI magnetograms of five days
  provides a comprehensive view of growth and decay. It traces a leaf-like
  structure, which is determined by the initial separation of the two
  polarities, a rapid expansion phase, a time when the spread stalls,
  and a period when the region slowly shrinks again. The separation
  rate of 0.26 km s<SUP>-1</SUP> is highest in the initial stage, and
  it decreases when the separation comes to a halt. Horizontal plasma
  velocities computed at four evolutionary stages indicate a changing
  pattern of inflows. In LCT maps we find persistent flow patterns such
  as outward motions in the outer part of the two major pores, a diverging
  feature near the trailing pore marking the site of upwelling plasma and
  flux emergence, and low velocities in the interior of dark pores. We
  detected many elongated rapidly expanding granules between the two
  major polarities, with dimensions twice as large as the normal granules.

---------------------------------------------------------
Title: Upper chromospheric magnetic field of a sunspot penumbra:
    observations of fine structure
Authors: Joshi, J.; Lagg, A.; Solanki, S. K.; Feller, A.; Collados,
   M.; Orozco Suárez, D.; Schlichenmaier, R.; Franz, M.; Balthasar,
   H.; Denker, C.; Berkefeld, T.; Hofmann, A.; Kiess, C.; Nicklas, H.;
   Pastor Yabar, A.; Rezaei, R.; Schmidt, D.; Schmidt, W.; Sobotka, M.;
   Soltau, D.; Staude, J.; Strassmeier, K. G.; Volkmer, R.; von der Lühe,
   O.; Waldmann, T.
2016A&A...596A...8J    Altcode: 2016arXiv160801988J
  <BR /> Aims: The fine-structure of the magnetic field in a sunspot
  penumbra in the upper chromosphere is to be explored and compared
  to that in the photosphere. <BR /> Methods: Spectropolarimetric
  observations with high spatial resolution were recorded with the 1.5-m
  GREGOR telescope using the GREGOR Infrared Spectrograph (GRIS). The
  observed spectral domain includes the upper chromospheric Hei triplet
  at 10 830 Å and the photospheric Sii 10 827.1 Å and Cai 10 833.4 Å
  spectral lines. The upper chromospheric magnetic field is obtained
  by inverting the Hei triplet assuming a Milne-Eddington-type model
  atmosphere. A height-dependent inversion was applied to the Sii 10
  827.1 Å and Cai 10 833.4 Å lines to obtain the photospheric magnetic
  field. <BR /> Results: We find that the inclination of the magnetic
  field varies in the azimuthal direction in the photosphere and in the
  upper chromosphere. The chromospheric variations coincide remarkably
  well with the variations in the inclination of the photospheric field
  and resemble the well-known spine and interspine structure in the
  photospheric layers of penumbrae. The typical peak-to-peak variations
  in the inclination of the magnetic field in the upper chromosphere
  are found to be 10°-15°, which is roughly half the variation in
  the photosphere. In contrast, the magnetic field strength of the
  observed penumbra does not vary on small spatial scales in the upper
  chromosphere. <BR /> Conclusions: Thanks to the high spatial resolution
  of the observations that is possible with the GREGOR telescope at 1.08
  microns, we find that the prominent small-scale fluctuations in the
  magnetic field inclination, which are a salient part of the property
  of sunspot penumbral photospheres, also persist in the chromosphere,
  although at somewhat reduced amplitudes. Such a complex magnetic
  configuration may facilitate penumbral chromospheric dynamic phenomena,
  such as penumbral micro-jets or transient bright dots.

---------------------------------------------------------
Title: Active region fine structure observed at 0.08 arcsec resolution
Authors: Schlichenmaier, R.; von der Lühe, O.; Hoch, S.; Soltau, D.;
   Berkefeld, T.; Schmidt, D.; Schmidt, W.; Denker, C.; Balthasar, H.;
   Hofmann, A.; Strassmeier, K. G.; Staude, J.; Feller, A.; Lagg, A.;
   Solanki, S. K.; Collados, M.; Sigwarth, M.; Volkmer, R.; Waldmann,
   T.; Kneer, F.; Nicklas, H.; Sobotka, M.
2016A&A...596A...7S    Altcode: 2016arXiv160707094S
  Context. The various mechanisms of magneto-convective energy transport
  determine the structure of sunspots and active regions. <BR />
  Aims: We characterise the appearance of light bridges and other
  fine-structure details and elaborate on their magneto-convective
  nature. <BR /> Methods: We present speckle-reconstructed images taken
  with the broad-band imager (BBI) at the 1.5 m GREGOR telescope in the
  486 nm and 589 nm bands. We estimate the spatial resolution from the
  noise characteristics of the image bursts and obtain 0.08″ at 589
  nm. We describe structure details in individual best images as well
  as the temporal evolution of selected features. <BR /> Results: We
  find branched dark lanes extending along thin (≈1″) light bridges
  in sunspots at various heliocentric angles. In thick (≳ 2″) light
  bridges the branches are disconnected from the central lane and have a Y
  shape with a bright grain toward the umbra. The images reveal that light
  bridges exist on varying intensity levels and that their small-scale
  features evolve on timescales of minutes. Faint light bridges show
  dark lanes outlined by the surrounding bright features. Dark lanes are
  very common and are also found in the boundary of pores. They have a
  characteristic width of 0.1″ or smaller. Intergranular dark lanes of
  that width are seen in active region granulation. <BR /> Conclusions: We
  interpret our images in the context of magneto-convective simulations
  and findings: while central dark lanes in thin light bridges are
  elevated and associated with a density increase above upflows, the dark
  lane branches correspond to locations of downflows and are depressed
  relative to the adjacent bright plasma. Thick light bridges with central
  dark lanes show no projection effect. They have a flat elevated plateau
  that falls off steeply at the umbral boundary. There, Y-shaped filaments
  form as they do in the inner penumbra. This indicates the presence of
  inclined magnetic fields, meaning that the umbral magnetic field is
  wrapped around the convective light bridge.

---------------------------------------------------------
Title: Probing deep photospheric layers of the quiet Sun with high
    magnetic sensitivity
Authors: Lagg, A.; Solanki, S. K.; Doerr, H. -P.; Martínez González,
   M. J.; Riethmüller, T.; Collados Vera, M.; Schlichenmaier, R.;
   Orozco Suárez, D.; Franz, M.; Feller, A.; Kuckein, C.; Schmidt, W.;
   Asensio Ramos, A.; Pastor Yabar, A.; von der Lühe, O.; Denker, C.;
   Balthasar, H.; Volkmer, R.; Staude, J.; Hofmann, A.; Strassmeier,
   K.; Kneer, F.; Waldmann, T.; Borrero, J. M.; Sobotka, M.; Verma, M.;
   Louis, R. E.; Rezaei, R.; Soltau, D.; Berkefeld, T.; Sigwarth, M.;
   Schmidt, D.; Kiess, C.; Nicklas, H.
2016A&A...596A...6L    Altcode: 2016arXiv160506324L
  Context. Investigations of the magnetism of the quiet Sun are hindered
  by extremely weak polarization signals in Fraunhofer spectral
  lines. Photon noise, straylight, and the systematically different
  sensitivity of the Zeeman effect to longitudinal and transversal
  magnetic fields result in controversial results in terms of the strength
  and angular distribution of the magnetic field vector. <BR /> Aims:
  The information content of Stokes measurements close to the diffraction
  limit of the 1.5 m GREGOR telescope is analyzed. We took the effects of
  spatial straylight and photon noise into account. <BR /> Methods: Highly
  sensitive full Stokes measurements of a quiet-Sun region at disk center
  in the deep photospheric Fe I lines in the 1.56 μm region were obtained
  with the infrared spectropolarimeter GRIS at the GREGOR telescope. Noise
  statistics and Stokes V asymmetries were analyzed and compared to a
  similar data set of the Hinode spectropolarimeter (SOT/SP). Simple
  diagnostics based directly on the shape and strength of the profiles
  were applied to the GRIS data. We made use of the magnetic line ratio
  technique, which was tested against realistic magneto-hydrodynamic
  simulations (MURaM). <BR /> Results: About 80% of the GRIS spectra
  of a very quiet solar region show polarimetric signals above a 3σ
  level. Area and amplitude asymmetries agree well with small-scale
  surface dynamo-magneto hydrodynamic simulations. The magnetic line ratio
  analysis reveals ubiquitous magnetic regions in the ten to hundred Gauss
  range with some concentrations of kilo-Gauss fields. <BR /> Conclusions:
  The GRIS spectropolarimetric data at a spatial resolution of ≈0.̋4
  are so far unique in the combination of high spatial resolution scans
  and high magnetic field sensitivity. Nevertheless, the unavoidable
  effect of spatial straylight and the resulting dilution of the weak
  Stokes profiles means that inversion techniques still bear a high risk
  of misinterpretating the data.

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Title: Flow and magnetic field properties in the trailing sunspots
    of active region NOAA 12396
Authors: Verma, M.; Denker, C.; Böhm, F.; Balthasar, H.; Fischer,
   C. E.; Kuckein, C.; Bello González, N.; Berkefeld, T.; Collados,
   M.; Diercke, A.; Feller, A.; González Manrique, S. J.; Hofmann, A.;
   Lagg, A.; Nicklas, H.; Orozco Suárez, D.; Pator Yabar, A.; Rezaei,
   R.; Schlichenmaier, R.; Schmidt, D.; Schmidt, W.; Sigwarth, M.;
   Sobotka, M.; Solanki, S. K.; Soltau, D.; Staude, J.; Strassmeier,
   K. G.; Volkmer, R.; von der Lühe, O.; Waldmann, T.
2016AN....337.1090V    Altcode:
  Improved measurements of the photospheric and chromospheric
  three-dimensional magnetic and flow fields are crucial for a precise
  determination of the origin and evolution of active regions. We present
  an illustrative sample of multi-instrument data acquired during a
  two-week coordinated observing campaign in August 2015 involving,
  among others, the GREGOR solar telescope (imaging and near-infrared
  spectroscopy) and the space missions Solar Dynamics Observatory (SDO)
  and Interface Region Imaging Spectrograph (IRIS). The observations
  focused on the trailing part of active region NOAA 12396 with complex
  polarity inversion lines and strong intrusions of opposite polarity
  flux. The GREGOR Infrared Spectrograph (GRIS) provided Stokes IQUV
  spectral profiles in the photospheric Si I λ1082.7 nm line, the
  chromospheric He I λ1083.0 nm triplet, and the photospheric Ca I
  λ1083.9 nm line. Carefully calibrated GRIS scans of the active region
  provided maps of Doppler velocity and magnetic field at different
  atmospheric heights. We compare quick-look maps with those obtained
  with the “Stokes Inversions based on Response functions” (SIR)
  code, which furnishes deeper insight into the magnetic properties
  of the region. We find supporting evidence that newly emerging flux
  and intruding opposite polarity flux are hampering the formation
  of penumbrae, i.e., a penumbra fully surrounding a sunspot is only
  expected after cessation of flux emergence in proximity to the sunspots.

---------------------------------------------------------
Title: Three-dimensional structure of a sunspot light bridge
Authors: Felipe, T.; Collados, M.; Khomenko, E.; Kuckein, C.; Asensio
   Ramos, A.; Balthasar, H.; Berkefeld, T.; Denker, C.; Feller, A.;
   Franz, M.; Hofmann, A.; Joshi, J.; Kiess, C.; Lagg, A.; Nicklas, H.;
   Orozco Suárez, D.; Pastor Yabar, A.; Rezaei, R.; Schlichenmaier,
   R.; Schmidt, D.; Schmidt, W.; Sigwarth, M.; Sobotka, M.; Solanki,
   S. K.; Soltau, D.; Staude, J.; Strassmeier, K. G.; Volkmer, R.;
   von der Lühe, O.; Waldmann, T.
2016A&A...596A..59F    Altcode: 2016arXiv161104803F
  Context. Active regions are the most prominent manifestations of solar
  magnetic fields; their generation and dissipation are fundamental
  problems in solar physics. Light bridges are commonly present during
  sunspot decay, but a comprehensive picture of their role in the
  removal of the photospheric magnetic field is still lacking. <BR />
  Aims: We study the three-dimensional configuration of a sunspot,
  and in particular, its light bridge, during one of the last stages of
  its decay. <BR /> Methods: We present the magnetic and thermodynamical
  stratification inferred from full Stokes inversions of the photospheric
  Si I 10 827 Å and Ca I 10 839 Å lines obtained with the GREGOR
  Infrared Spectrograph of the GREGOR telescope at the Observatorio del
  Teide, Tenerife, Spain. The analysis is complemented by a study of
  continuum images covering the disk passage of the active region, which
  are provided by the Helioseismic and Magnetic Imager on board the Solar
  Dynamics Observatory. <BR /> Results: The sunspot shows a light bridge
  with penumbral continuum intensity that separates the central umbra from
  a smaller umbra. We find that in this region the magnetic field lines
  form a canopy with lower magnetic field strength in the inner part. The
  photospheric light bridge is dominated by gas pressure (high-β),
  as opposed to the surrounding umbra, where the magnetic pressure
  is higher. A convective flow is observed in the light bridge. This
  flow is able to bend the magnetic field lines and to produce field
  reversals. The field lines merge above the light bridge and become
  as vertical and strong as in the surrounding umbra. We conclude that
  this occurs because two highly magnetized regions approach each other
  during the sunspot evolution. <P />Movies associated to Figs. 2 and 13
  are available at <A href="http://www.aanda.org">http://www.aanda.org</A>

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Title: Inference of magnetic fields in the very quiet Sun
Authors: Martínez González, M. J.; Pastor Yabar, A.; Lagg, A.;
   Asensio Ramos, A.; Collados, M.; Solanki, S. K.; Balthasar, H.;
   Berkefeld, T.; Denker, C.; Doerr, H. P.; Feller, A.; Franz, M.;
   González Manrique, S. J.; Hofmann, A.; Kneer, F.; Kuckein, C.;
   Louis, R.; von der Lühe, O.; Nicklas, H.; Orozco, D.; Rezaei, R.;
   Schlichenmaier, R.; Schmidt, D.; Schmidt, W.; Sigwarth, M.; Sobotka,
   M.; Soltau, D.; Staude, J.; Strassmeier, K. G.; Verma, M.; Waldman,
   T.; Volkmer, R.
2016A&A...596A...5M    Altcode: 2018arXiv180410089M
  Context. Over the past 20 yr, the quietest areas of the solar surface
  have revealed a weak but extremely dynamic magnetism occurring
  at small scales (&lt;500 km), which may provide an important
  contribution to the dynamics and energetics of the outer layers of
  the atmosphere. Understanding this magnetism requires the inference
  of physical quantities from high-sensitivity spectro-polarimetric
  data with high spatio-temporal resolution. <BR /> Aims: We present
  high-precision spectro-polarimetric data with high spatial resolution
  (0.4”) of the very quiet Sun at 1.56 μm obtained with the GREGOR
  telescope to shed some light on this complex magnetism. <BR /> Methods:
  We used inversion techniques in two main approaches. First, we assumed
  that the observed profiles can be reproduced with a constant magnetic
  field atmosphere embedded in a field-free medium. Second, we assumed
  that the resolution element has a substructure with either two constant
  magnetic atmospheres or a single magnetic atmosphere with gradients of
  the physical quantities along the optical depth, both coexisting with
  a global stray-light component. <BR /> Results: Half of our observed
  quiet-Sun region is better explained by magnetic substructure within
  the resolution element. However, we cannot distinguish whether this
  substructure comes from gradients of the physical parameters along the
  line of sight or from horizontal gradients (across the surface). In
  these pixels, a model with two magnetic components is preferred, and
  we find two distinct magnetic field populations. The population with
  the larger filling factor has very weak ( 150 G) horizontal fields
  similar to those obtained in previous works. We demonstrate that the
  field vector of this population is not constrained by the observations,
  given the spatial resolution and polarimetric accuracy of our data. The
  topology of the other component with the smaller filling factor is
  constrained by the observations for field strengths above 250 G:
  we infer hG fields with inclinations and azimuth values compatible
  with an isotropic distribution. The filling factors are typically
  below 30%. We also find that the flux of the two polarities is not
  balanced. From the other half of the observed quiet-Sun area 50% are
  two-lobed Stokes V profiles, meaning that 23% of the field of view
  can be adequately explained with a single constant magnetic field
  embedded in a non-magnetic atmosphere. The magnetic field vector and
  filling factor are reliable inferred in only 50% based on the regular
  profiles. Therefore, 12% of the field of view harbour hG fields with
  filling factors typically below 30%. At our present spatial resolution,
  70% of the pixels apparently are non-magnetised.

---------------------------------------------------------
Title: Fitting peculiar spectral profiles in He I 10830Å absorption
    features
Authors: González Manrique, S. J.; Kuckein, C.; Pastor Yabar, A.;
   Collados, M.; Denker, C.; Fischer, C. E.; Gömöry, P.; Diercke, A.;
   Bello González, N.; Schlichenmaier, R.; Balthasar, H.; Berkefeld, T.;
   Feller, A.; Hoch, S.; Hofmann, A.; Kneer, F.; Lagg, A.; Nicklas, H.;
   Orozco Suárez, D.; Schmidt, D.; Schmidt, W.; Sigwarth, M.; Sobotka,
   M.; Solanki, S. K.; Soltau, D.; Staude, J.; Strassmeier, K. G.; Verma,
   M.; Volkmer, R.; von der Lühe, O.; Waldmann, T.
2016AN....337.1057G    Altcode: 2016arXiv160300679G
  The new generation of solar instruments provides better
  spectral, spatial, and temporal resolution for a better
  understanding of the physical processes that take place on the
  Sun. Multiple-component profiles are more commonly observed with these
  instruments. Particularly, the He I 10830 Å triplet presents such
  peculiar spectral profiles, which give information on the velocity
  and magnetic fine structure of the upper chromosphere. The purpose
  of this investigation is to describe a technique to efficiently fit
  the two blended components of the He I 10830 Å triplet, which are
  commonly observed when two atmospheric components are located within
  the same resolution element. The observations used in this study were
  taken on 2015 April 17 with the very fast spectroscopic mode of the
  GREGOR Infrared Spectrograph (GRIS) attached to the 1.5-m GREGOR solar
  telescope, located at the Observatorio del Teide, Tenerife, Spain. We
  apply a double-Lorentzian fitting technique using Levenberg-Marquardt
  least-squares minimization. This technique is very simple and much
  faster than inversion codes. Line-of-sight Doppler velocities can
  be inferred for a whole map of pixels within just a few minutes. Our
  results show sub- and supersonic downflow velocities of up to 32 km
  s<SUP>-1</SUP> for the fast component in the vicinity of footpoints of
  filamentary structures. The slow component presents velocities close
  to rest.

---------------------------------------------------------
Title: Chromospheric Heating by Acoustic Waves Compared to Radiative
    Cooling
Authors: Sobotka, M.; Heinzel, P.; Švanda, M.; Jurčák, J.; del Moro,
   D.; Berrilli, F.
2016ApJ...826...49S    Altcode: 2016arXiv160504794S
  Acoustic and magnetoacoustic waves are among the possible candidate
  mechanisms that heat the upper layers of the solar atmosphere. A weak
  chromospheric plage near the large solar pore NOAA 11005 was observed
  on 2008 October 15, in the Fe I 617.3 nm and Ca II 853.2 nm lines of
  the Interferometric Bidimemsional Spectrometer attached to the Dunn
  Solar Telescope. In analyzing the Ca II observations (with spatial
  and temporal resolutions of 0.″4 and 52 s) the energy deposited by
  acoustic waves is compared to that released by radiative losses. The
  deposited acoustic flux is estimated from the power spectra of Doppler
  oscillations measured in the Ca II line core. The radiative losses
  are calculated using a grid of seven one-dimensional hydrostatic
  semi-empirical model atmospheres. The comparison shows that the
  spatial correlation of the maps of radiative losses and acoustic flux
  is 72%. In a quiet chromosphere, the contribution of acoustic energy
  flux to radiative losses is small, only about 15%. In active areas
  with a photospheric magnetic-field strength between 300 and 1300 G
  and an inclination of 20°-60°, the contribution increases from 23%
  (chromospheric network) to 54% (a plage). However, these values have
  to be considered as lower limits and it might be possible that the
  acoustic energy flux is the main contributor to the heating of bright
  chromospheric network and plages.

---------------------------------------------------------
Title: Temporal Evolution of Magnetic Field and Intensity Properties
    of Photospheric Pores
Authors: Dorotovič, I.; Rybanský, M.; Sobotka, M.; Lorenc, M.;
   Barandas, M.; Fonseca, J. M.
2016ASPC..504...37D    Altcode:
  We describe conditions of pore formation in relation to the
  configuration and intensity of magnetic field, using observations
  of the SDO/HMI instrument, which observes the photosphere in the
  visible continuum and simultaneously the magnetic field with a
  spatial resolution of better than 1”. An area with a diameter of 35”
  containing 6 pores during the period from October 10, 2013, 22:01:30
  UT to October 11, 2013, 20:01:30 UT is selected from the HMI full-disk
  images. We analyze the temporal evolution of the area and brightness
  of the pores (time step 15 minutes), their statistics, and in parallel
  a time-sequence of the line-of-sight magnetic field intensity and its
  correlation with the area and brightness. We find that the pores become
  visible when their intensity decreases below 0.85 of the photospheric
  surrounding intensity and the magnetic field increases to 650 G in the
  HMI measurements. We determine the mean synodical rotational speed of
  the pores to be 14.44°/24 hours, which is 1° more than the tabular
  value. Positions of maximum magnetic field precede the positions of
  the pores in the direction of rotation for the positive polarity and
  lag behind it for the negative polarity.

---------------------------------------------------------
Title: Flows in and around Active Region NOAA12118 Observed with
    the GREGOR Solar Telescope and SDO/HMI
Authors: Verma, M.; Denker, C.; Balthasar, H.; Kuckein, C.; González
   Manrique, S. J.; Sobotka, M.; Bello González, N.; Hoch, S.; Diercke,
   A.; Kummerow, P.; Berkefeld, T.; Collados, M.; Feller, A.; Hofmann,
   A.; Kneer, F.; Lagg, A.; Löhner-Böttcher, J.; Nicklas, H.; Pastor
   Yabar, A.; Schlichenmaier, R.; Schmidt, D.; Schmidt, W.; Schubert,
   M.; Sigwarth, M.; Solanki, S. K.; Soltau, D.; Staude, J.; Strassmeier,
   K.; Volkmer, R.; von der Lühe, O.; Waldmann, T.
2016ASPC..504...29V    Altcode: 2016arXiv160301109V
  Accurate measurements of magnetic and velocity fields in and around
  solar active regions are key to unlocking the mysteries of the
  formation and the decay of sunspots. High spatial resolution images
  and spectral sequences with a high cadence obtained with the GREGOR
  solar telescope give us an opportunity to scrutinize 3-D flow fields
  with local correlation tracking and imaging spectroscopy. We present
  GREGOR early science data acquired in 2014 July - August with the GREGOR
  Fabry-Pérot Interferometer and the Blue Imaging Channel. Time-series
  of blue continuum (λ 450.6 nm) images of the small active region
  NOAA 12118 were restored with the speckle masking technique to derive
  horizontal proper motions and to track the evolution of morphological
  changes. In addition, high-resolution observations are discussed in
  the context of synoptic data from the Solar Dynamics Observatory.

---------------------------------------------------------
Title: GREGOR observations of a small flare above a sunspot
Authors: Sobotka, M.; Dudík, J.; Denker, C.; Balthasar, H.; Jurčák,
   J.; Liu, W.
2016IAUS..320...68S    Altcode:
  A small flare ribbon above a sunspot umbra in active region 12205 was
  observed on November 7, 2014, at 12:00 UT in the blue imaging channel
  of the 1.5-m GREGOR telescope, using a 0.1 nm Ca II H interference
  filter. Context observations from SDO/AIA, Hinode/SOT, and IRIS show
  that the ribbon is a part of a larger one that extends through the
  neighboring positive polarities and also participates in several
  other flares within the active region. A 140 second long time series
  of Ca II H images was reconstructed by means of the Multi-Frame
  Blind Deconvolution method, giving the respective spatial and
  temporal resolutions of 0”.1 and 1 s. Light curves and horizontal
  velocities of small-scale bright knots in the observed flare ribbon
  were measured. Some knots are stationary but three move along the
  ribbon with speeds of 7-11 km s<SUP>-1</SUP>. Two of them move in the
  opposite direction and exhibit highly correlated intensity changes,
  providing evidence for the presence of slipping reconnection at small
  spatial scales.

---------------------------------------------------------
Title: White-light continuum emission from a solar flare and plage
Authors: Berlicki, Arkadiusz; Awasthi, Arun Kumar; Heinzel, Petr;
   Sobotka, Michal
2016IAUS..320..268B    Altcode: 2016arXiv160404186B
  Observations of flare emissions in the optical continuum are very
  rare. Therefore, the analysis of such observations is useful and
  may contribute to our understanding of the flaring chromosphere and
  photosphere. We study the white light continuum emission observed
  during the X6.9 flare. This emission comes not only from the flare
  ribbons but also form the nearby plage area. The main aim of this work
  is to disentangle the flare and plage (facula) emission. We analyzed
  the spatial, spectral and temporal evolution of the flare and plage
  properties by analyzing multi-wavelength observations. We study
  the morphological correlation of the white-light continuum emission
  observed with different instruments. We found that some active region
  areas which produce the continuum emission correspond rather to plages
  than to the flare kernels. We showed that in some cases the continuum
  emission from the WL flare kernels is very similar to the continuum
  emission of faculae.

---------------------------------------------------------
Title: GREGOR observations of a small flare above a sunspot
Authors: Sobotka, Michal; Dudik, Jaroslav; Denker, Carsten; Balthasar,
   Horst; Jurcak, Jan; Liu, Wenjuan; GREGOR Team
2015IAUGA..2246841S    Altcode:
  A small flare ribbon above a sunspot with a light bridge was observed on
  7 November 2014 around 12:00 UT in the blue imaging channel of GREGOR,
  using a 0.1 nm Ca II H interference filter. Context observations from
  SDO/AIA, Hinode/SOT and IRIS show that the ribbon is a part of a larger
  ribbon extending through the neighbouring negative polarities that also
  participates in several other flares within the active region. A 140
  s long time series of Ca II H images was reconstructed by means of the
  Multi Frame Blind Deconvolution method, giving the respective spatial
  and temporal resolutions of 0.1" and 1 s. Light curves and horizontal
  velocities of small-scale brightenings in the flare ribbon located
  above an umbral core were measured. Some of them are stationary but
  three brightenings move in opposite directions along the ribbon with
  speeds of 7 - 11 km/s. Expecting that the brightenings correspond to
  footpoints of flare loops, their motions can be interpreted in terms
  of the slipping reconnection model.

---------------------------------------------------------
Title: Moat Flow System around Sunspots in Shallow Subsurface Layers
Authors: Švanda, Michal; Sobotka, Michal; Bárta, Tomáš
2014ApJ...790..135S    Altcode: 2014arXiv1406.2482S
  We investigate the subsurface moat flow system around McIntosh
  H-type symmetrical sunspots and compare it to the flow system within
  supergranular cells. Representatives of both types of flows are
  constructed by means of the statistical averaging of flow maps obtained
  by time-distance helioseismic inversions. We find that moat flows around
  H-type sunspots replace supergranular flows but there are two principal
  differences between the two phenomena: the moat flow is asymmetrical,
  probably due to the proper motion of sunspots with respect to the
  local frame of rest, while the flow in the supergranular cell is highly
  symmetrical. Furthermore, the whole moat is a downflow region, while the
  supergranule contains the upflow in the center, which turns into the
  downflow at about 60% of the cell radius from its center. We estimate
  that the mass downflow rate in the moat region is at least two times
  larger than the mass circulation rate within the supergranular cell.

---------------------------------------------------------
Title: Orphan penumbrae: Submerging horizontal fields
Authors: Jurčák, J.; Bellot Rubio, L. R.; Sobotka, M.
2014A&A...564A..91J    Altcode: 2014arXiv1402.6558J
  <BR /> Aims: We investigate the properties of orphan penumbrae,
  which are photospheric filamentary structures observed in active
  regions near polarity inversion lines that resemble the penumbra of
  regular sunspots but are not connected to any umbra. <BR /> Methods:
  We use Hinode data from the Solar Optical Telescope to determine the
  properties of orphan penumbrae. Spectropolarimetric data are employed
  to obtain the vector magnetic field and line-of-sight velocities in
  the photosphere. Magnetograms are used to study the overall evolution
  of these structures, and G-band and Ca ii H filtergrams are to
  investigate their brightness and apparent horizontal motions. <BR />
  Results: Orphan penumbrae form between regions of opposite polarity in
  places with horizontal magnetic fields. Their magnetic configuration
  is that of Ω-shaped flux ropes. In the two cases studied here,
  the opposite-polarity regions approach each other with time and the
  whole structure submerges as the penumbral filaments disappear. Orphan
  penumbrae are very similar to regular penumbrae, including the existence
  of strong gas flows. Therefore, they could have a similar origin. The
  main difference between them is the absence of a "background" magnetic
  field in orphan penumbrae. This could explain most of the observed
  differences. <BR /> Conclusions: The fast flows we detect in orphan
  penumbrae may be caused by the siphon flow mechanism. Based on the
  similarities between orphan and regular penumbrae, we propose that
  the Evershed flow is also a manifestation of siphon flows. <P />A
  movie attached to Fig. 11 is available in electronic form at <A
  href="http://www.aanda.org/10.1051/0004-6361/201322340/olm">http://www.aanda.org</A>

---------------------------------------------------------
Title: An Estimate of Chromospheric Heating by Acoustic Waves
Authors: Sobotka, M.; Švanda, M.; Jurčak, J.; Heinzel, P.; Del Moro,
   D.; Berrilli, F.
2014CEAB...38...53S    Altcode:
  Several mechanisms may heat the solar chromosphere: acoustic waves,
  magnetoacoustic waves (slow, fast, and Alfvén waves), and small-scale
  magnetic reconnections. Based on observations in the Ca II 854.2 nm
  line, the contribution of acoustic waves to the heating of quiet and
  plage regions in the chromosphere is discussed. The energy released
  by radiative losses is compared with the energy deposited by acoustic
  waves. Radiative losses are computed using a grid of six semi-empirical
  models VAL A--F. The deposited acoustic flux is calculated using power
  spectra of Doppler oscillations measured in the Ca~II line core. The
  comparison shows that the spatial correlation of maps of radiative
  losses and acoustic flux is 70 %. The deposited acoustic flux provides
  at least 25--30~% of the energy radiated in the quiet chromosphere
  and 50~% in plage regions.

---------------------------------------------------------
Title: Dynamics of the solar atmosphere above a pore with a light
    bridge
Authors: Sobotka, M.; Švanda, M.; Jurčák, J.; Heinzel, P.; Del Moro,
   D.; Berrilli, F.
2013A&A...560A..84S    Altcode: 2013arXiv1309.7790S
  Context. Solar pores are small sunspots lacking a penumbra that have
  a prevailing vertical magnetic-field component. They can include light
  bridges at places with locally reduced magnetic field. Like sunspots,
  they exhibit a wide range of oscillatory phenomena. <BR /> Aims:
  A large isolated pore with a light bridge (NOAA 11005) is studied
  to obtain characteristics of a chromospheric filamentary structure
  around the pore, to analyse oscillations and waves in and around
  the pore, and to understand the structure and brightness of the light
  bridge. <BR /> Methods: Spectral imaging observations in the line Ca II
  854.2 nm and complementary spectropolarimetry in Fe I lines, obtained
  with the DST/IBIS spectrometer and HINODE/SOT spectropolarimeter,
  were used to measure photospheric and chromospheric velocity fields,
  oscillations, waves, the magnetic field in the photosphere, and
  acoustic energy flux and radiative losses in the chromosphere. <BR />
  Results: The chromospheric filamentary structure around the pore has
  all important characteristics of a superpenumbra: it shows an inverse
  Evershed effect and running waves, and has a similar morphology and
  oscillation character. The granular structure of the light bridge in
  the upper photosphere can be explained by radiative heating. Acoustic
  waves leaking up from the photosphere along the inclined magnetic
  field in the light bridge transfer enough energy flux to balance
  the entire radiative losses of the light-bridge chromosphere. <BR />
  Conclusions: A penumbra is not a necessary condition for the formation
  of a superpenumbra. The light bridge is heated by radiation in the
  photosphere and by acoustic waves in the chromosphere.

---------------------------------------------------------
Title: Atmosphere above a large solar pore
Authors: Sobotka, M.; Švanda, M.; Jurčák, J.; Heinzel, P.; Del
   Moro, D.
2013JPhCS.440a2049S    Altcode: 2013arXiv1302.4893S
  A large solar pore with a granular light bridge was observed on October
  15, 2008 with the IBIS spectrometer at the Dunn Solar Telescope and a
  69-min long time series of spectral scans in the lines Ca II 854.2 nm
  and Fe I 617.3 nm was obtained. The intensity and Doppler signals in the
  Ca II line were separated. This line samples the middle chromosphere
  in the core and the middle photosphere in the wings. Although no
  indication of a penumbra is seen in the photosphere, an extended
  filamentary structure, both in intensity and Doppler signals, is
  observed in the Ca II line core. An analysis of morphological and
  dynamical properties of the structure shows a close similarity to a
  superpenumbra of a sunspot with developed penumbra. A special attention
  is paid to the light bridge, which is the brightest feature in the
  pore seen in the Ca II line centre and shows an enhanced power of
  chromospheric oscillations at 3-5 mHz. Although the acoustic power
  flux in the light bridge is five times higher than in the "quiet"
  chromosphere, it cannot explain the observed brightness.

---------------------------------------------------------
Title: The GREGOR Solar Telescope on Tenerife
Authors: Schmidt, W.; von der Lühe, O.; Volkmer, R.; Denker, C.;
   Solanki, S. K.; Balthasar, H.; Bello González, N.; Berkefeld, T.;
   Collados Vera, M.; Hofmann, A.; Kneer, F.; Lagg, A.; Puschmann, K. G.;
   Schmidt, D.; Sobotka, M.; Soltau, D.; Strassmeier, K. G.
2012ASPC..463..365S    Altcode: 2012arXiv1202.4289S
  2011 was a successful year for the GREGOR project. The telescope was
  finally completed in May with the installation of the 1.5-meter primary
  mirror. The installation of the first-light focal plane instruments was
  completed by the end of the year. At the same time, the preparations
  for the installation of the high-order adaptive optics were finished,
  its integration to the telescope is scheduled for early 2012. This
  paper describes the telescope and its instrumentation in their present
  first-light configuration, and provides a brief overview of the science
  goals of GREGOR.

---------------------------------------------------------
Title: The GREGOR Solar Telescope
Authors: Denker, C.; Lagg, A.; Puschmann, K. G.; Schmidt, D.; Schmidt,
   W.; Sobotka, M.; Soltau, D.; Strassmeier, K. G.; Volkmer, R.; von
   der Luehe, O.; Solanki, S. K.; Balthasar, H.; Bello Gonzalez, N.;
   Berkefeld, T.; Collados Vera, M.; Hofmann, A.; Kneer, F.
2012IAUSS...6E.203D    Altcode:
  The 1.5-meter GREGOR solar telescope is a new facility for
  high-resolution observations of the Sun. The telescope is located at the
  Spanish Observatorio del Teide on Tenerife. The telescope incorporates
  advanced designs for a foldable-tent dome, an open steel-truss telescope
  structure, and active and passive means to minimize telescope and mirror
  seeing. Solar fine structure can be observed with a dedicated suite
  of instruments: a broad-band imaging system, the "GREGOR Fabry-Perot
  Interferometer", and the "Grating Infrared Spectrograph". All post-focus
  instruments benefit from a high-order (multi-conjugate) adaptive optics
  system, which enables observations close to the diffraction limit of
  the telescope. The inclusion of a spectrograph for stellar activity
  studies and the search for solar twins expands the scientific usage
  of the GREGOR to the nighttime domain. We report on the successful
  commissioning of the telescope until the end of 2011 and the first
  steps towards science verification in 2012.

---------------------------------------------------------
Title: IBIS: High-Resolution Multi-Height Observations and Magnetic
    Field Retrieval
Authors: Del Moro, D. .; Berrilli, F.; Stangalini, M.; Giannattasio,
   F.; Piazzesi, R.; Giovannelli, L.; Viticchiè, B.; Vantaggiato, M.;
   Sobotka, M.; Jurčák, J.; Criscuoli, S.; Giorgi, F.; Zuccarello, F.
2012ASPC..463...33D    Altcode:
  IBIS (Interferometric BIdimensional Spectrometer) allows us to measure
  the four Stokes parameters in several spectroscopic lines with high
  spatial and spectral resolutions. With this information, we can
  retrieve both the dynamics and the magnetic field at different layers
  of the Photosphere and Chromosphere. The high spectral, spatial and
  temporal resolutions and the polarimetric sensitivity of IBIS allows
  us to study different phenomena taking place in the solar atmosphere
  with new tools. As an example, we highlight some applications of
  IBIS observations and analysis: <BR /> · Radiative and dynamical
  properties of Photospheric Bright Points versus their magnetic field
  concentration. <BR /> · Close up analysis of magnetic, velocity and
  temperature field in a solar pore. <BR /> · MHD wave propagation from
  the photosphere to the chromosphere in complex magnetic configuration.

---------------------------------------------------------
Title: A retrospective of the GREGOR solar telescope in scientific
    literature
Authors: Denker, C.; von der Lühe, O.; Feller, A.; Arlt, K.;
   Balthasar, H.; Bauer, S. -M.; Bello González, N.; Berkefeld, Th.;
   Caligari, P.; Collados, M.; Fischer, A.; Granzer, T.; Hahn, T.;
   Halbgewachs, C.; Heidecke, F.; Hofmann, A.; Kentischer, T.; Klva{ňa,
   M.; Kneer, F.; Lagg, A.; Nicklas, H.; Popow, E.; Puschmann, K. G.;
   Rendtel, J.; Schmidt, D.; Schmidt, W.; Sobotka, M.; Solanki, S. K.;
   Soltau, D.; Staude, J.; Strassmeier, K. G.; Volkmer, R.; Waldmann,
   T.; Wiehr, E.; Wittmann, A. D.; Woche, M.
2012AN....333..810D    Altcode: 2012arXiv1210.3167D
  In this review, we look back upon the literature, which had the
  GREGOR solar telescope project as its subject including science cases,
  telescope subsystems, and post-focus instruments. The articles date
  back to the year 2000, when the initial concepts for a new solar
  telescope on Tenerife were first presented at scientific meetings. This
  comprehensive bibliography contains literature until the year 2012,
  i.e., the final stages of commissioning and science verification. Taking
  stock of the various publications in peer-reviewed journals and
  conference proceedings also provides the “historical” context
  for the reference articles in this special issue of Astronomische
  Nachrichten/Astronomical Notes.

---------------------------------------------------------
Title: The 1.5 meter solar telescope GREGOR
Authors: Schmidt, W.; von der Lühe, O.; Volkmer, R.; Denker, C.;
   Solanki, S. K.; Balthasar, H.; Bello Gonzalez, N.; Berkefeld, Th.;
   Collados, M.; Fischer, A.; Halbgewachs, C.; Heidecke, F.; Hofmann,
   A.; Kneer, F.; Lagg, A.; Nicklas, H.; Popow, E.; Puschmann, K. G.;
   Schmidt, D.; Sigwarth, M.; Sobotka, M.; Soltau, D.; Staude, J.;
   Strassmeier, K. G.; Waldmann , T. A.
2012AN....333..796S    Altcode:
  The 1.5 m telescope GREGOR opens a new window to the understanding
  of solar small-scale magnetism. The first light instrumentation
  includes the Gregor Fabry Pérot Interferometer (GFPI), a filter
  spectro-polarimeter for the visible wavelength range, the GRating
  Infrared Spectro-polarimeter (GRIS) and the Broad-Band Imager (BBI). The
  excellent performance of the first two instruments has already been
  demonstrated at the Vacuum Tower Telescope. GREGOR is Europe's largest
  solar telescope and number 3 in the world. Its all-reflective Gregory
  design provides a large wavelength coverage from the near UV up to at
  least 5 microns. The field of view has a diameter of 150 arcsec. GREGOR
  is equipped with a high-order adaptive optics system, with a subaperture
  size of 10 cm, and a deformable mirror with 256 actuators. The science
  goals are focused on, but not limited to, solar magnetism. GREGOR
  allows us to measure the emergence and disappearance of magnetic flux
  at the solar surface at spatial scales well below 100 km. Thanks to its
  spectro-polarimetric capabilities, GREGOR will measure the interaction
  between the plasma flows, different kinds of waves, and the magnetic
  field. This will foster our understanding of the processes that heat the
  chromosphere and the outer layers of the solar atmosphere. Observations
  of the surface magnetic field at very small spatial scales will shed
  light on the variability of the solar brightness.

---------------------------------------------------------
Title: Optimisation of solar synoptic observations
Authors: Klvaña, Miroslav; Sobotka, Michal; Švanda, Michal
2012SPIE.8448E..0AK    Altcode:
  The development of instrumental and computer technologies is
  connected with steadily increasing needs for archiving of large data
  volumes. The current trend to meet this requirement includes the
  data compression and growth of storage capacities. This approach,
  however, has technical and practical limits. A further reduction of
  the archived data volume can be achieved by means of an optimisation
  of the archiving that consists in data selection without losing the
  useful information. We describe a method of optimised archiving of
  solar images, based on the selection of images that contain a new
  information. The new information content is evaluated by means of the
  analysis of changes detected in the images. We present characteristics
  of different kinds of image changes and divide them into fictitious
  changes with a disturbing effect and real changes that provide a new
  information. In block diagrams describing the selection and archiving,
  we demonstrate the influence of clouds, the recording of images during
  an active event on the Sun, including a period before the event onset,
  and the archiving of long-term history of solar activity. The described
  optimisation technique is not suitable for helioseismology, because it
  does not conserve the uniform time step in the archived sequence and
  removes the information about solar oscillations. In case of long-term
  synoptic observations, the optimised archiving can save a large amount
  of storage capacities. The actual capacity saving will depend on the
  setting of the change-detection sensitivity and on the capability to
  exclude the fictitious changes.

---------------------------------------------------------
Title: Magnetic and velocity fields of a solar pore
Authors: Sobotka, M.; Del Moro, D.; Jurčák, J.; Berrilli, F.
2012A&A...537A..85S    Altcode:
  Context. Solar pores are intermediate-size magnetic flux features
  that emerge at the surface of the Sun. The absence of a filamentary
  penumbra indicates that there is a relatively simple magnetic structure
  with a prevailing vertical magnetic field. <BR /> Aims: Relations
  between the magnetic field components, line-of-sight velocities,
  and horizontal motions in and around a large pore (D<SUB>eff</SUB> =
  8”.5) are analysed to provide observational constraints on theoretical
  models and numerical simulations. <BR /> Methods: Spectropolarimetric
  observations in Fe I 617.3 nm of the pore NOAA 11005 with the IBIS
  spectrometer attached to the Dunn Solar Telescope are inverted into
  series of maps of thermal, magnetic, and velocity parameters using the
  SIR code. Horizontal velocities are obtained from series of white-light
  images by means of local correlation tracking. <BR /> Results: The
  magnetic field B extends from the visible pore border of more than 3”.5
  and has a radial structure in a form of spines that are co-spatial with
  dark intergranular lanes. The horizontal component B<SUB>hor</SUB> is
  more extended than the vertical component B<SUB>z</SUB>. The temperature
  linearly decreases with increasing B<SUB>z</SUB>, by about - 300 K
  kG<SUP>-1</SUP> in the photosphere and - 800 K kG<SUP>-1</SUP> in the
  umbra. The temperature contrast of granulation increases with increasing
  magnetic field strength and is then suppressed for B<SUB>z</SUB> &gt;
  1200 G. Granular upflows dominate in regions with B<SUB>z</SUB> &lt;
  600-700 G. Line-of-sight velocities are lower in stronger fields,
  except for fast isolated downflows at the pore's border. The velocity
  signature of granulation is suppressed completely for B<SUB>hor</SUB>
  &gt; 1000 G. Horizontal motions of granules start to be damped for
  B<SUB>z</SUB> &gt; 500 G and recurrently exploding granules appear
  only in magnetic fields comparable to or weaker than the equipartition
  field strength 400 G.

---------------------------------------------------------
Title: Solar synoptic telescope. Characteristics, possibilities,
    and limits of design
Authors: Klvaňa, M.; Sobotka, M.; Švanda, M.
2011CoSka..41...92K    Altcode:
  A rapid evolution of electronics and information technologies makes
  it possible to use new original designs of synoptic telescopes for
  solar observations, to increase the demands on their functions, and
  to fully automate the observation. However, there are hardware and
  software limits that strongly influence the working capabilities of
  synoptic telescopes. In this contribution, we analyze relationships
  between the synoptic telescope's characteristics, the parameters of
  image digitization, the control, the achievable degree of automation of
  observations, and the possibilities to implement functions connected
  with the solar activity monitoring and image archiving. The principles
  listed above serve as a basis for the design study of the Auxiliary
  Full-Disc Telescope for the European Solar Telescope (EST), a
  pan-European project of a large 4-meter solar telescope.

---------------------------------------------------------
Title: Synoptic observations with the Coimbra spectroheliograph
Authors: Garcia, A.; Sobotka, M.; Klvaňa, M.; Bumba, V.
2011CoSka..41...69G    Altcode:
  Spectroheliograms in the Astronomical Observatory of the Coimbra
  University (Portugal) have been photographed in the spectral line of Ca
  II K continuously since 1926 and, since 1989, spectroheliograms in Hα
  have been photographed as well. Since 2007, all the spectroheliograms
  have been recorded using a CCD camera. Until July 2010, about 34 000
  observations in total were acquired in the spectral bands Ca II K3, Ca
  II K1, Hα, red continuum, and Hα Dopplergrams (since 2009), covering
  a period of 85 years (Ca II K3 line). We describe the characteristics
  of the photographic and digital spectroheliograms, the statistics of
  the observations, and the utilization of Coimbra spectroheliograms by
  the solar community.

---------------------------------------------------------
Title: The challenge of umbral dots
Authors: Sobotka, M.; Klvaňa, M.
2011CEAB...35...39S    Altcode:
  Recent numerical simulations of magnetoconvection in the umbra
  reproduced not only the basic characteristics of central (CUDs) and
  peripheral (PUDs) umbral dots but predicted also possible substructures
  -- dark lanes in CUDs and tails connected to PUDs. Imaging of
  these extremely small and faint substructures is at the limits of
  contemporary solar telescopes and spectropolarimetry is currently
  not feasible. Although the existence of these substructures has
  been recently confirmed by observations, there are some differences
  between the observed and predicted characteristics that need to be
  clarified. The required spectropolarimetric observations with extremely
  high spatial and temporal resolution and stability can be acquired only
  with 4-m class telescopes equipped with multi-conjugate adaptive optics.

---------------------------------------------------------
Title: Vývoj celodiskového dalekohledu pro EST 

---------------------------------------------------------
Title: Vývoj
celodiskového dalekohledu pro EST 

---------------------------------------------------------
Title: Development of the full-disc
    telescope for EST.
Authors: Sobotka, M.; Klvaňa, M.; Melich, Z.; Rail, Z.
2010nspm.conf..201S    Altcode:
  At present, a development study takes place of the 4-meter European
  Solar Telescope (EST), the status of which is summarized in the
  introduction of this contribution. A part of the study is the design
  of the Auxiliary Full-Disc Telescope (AFDT), developed in the AI and
  IPP of the AS CR. The telescope, 150 mm in diameter, will serve for
  positioning the observer on the solar disc and in its surroundings,
  steering the main EST telescope towards the selected object, accurate
  coordinate measurements and EST coordinate system corrections. AFDT
  will also be used as an autonomous robotic telescope for synoptic
  observations of solar activity. In this paper we describe the current
  status of the AFDT special mechanical design, optical system design,
  and the principles of the telescope control system.

---------------------------------------------------------
Title: Spectroheliograms recorded using the new CCD camera in the
    OAUC, Coimbra, Portugal
Authors: Garcia, A.; Klvaňa, M.; Sobotka, M.; Bumba, V.
2010nspm.conf..206G    Altcode:
  Spectroheliograms in the OAUC (Coimbra, Portugal) have been
  photographed in the spectral line of Ca II continuously since 1926,
  and since 1990 spectroheliograms in H-alpha have been photographed as
  well. Since 2007, all the spectroheliograms are recorded using new CCD
  camera. Specifications of the camera, including the new optical scheme
  of the spectrograph, were presented in a previous paper (Klvana et al.,
  2006). On the data recorded in 2010 we demonstrate the good quality
  of spectroheliograms taken during standard observing conditions,
  influence of the clouds and the effects introduced by filtering.

---------------------------------------------------------
Title: GREGOR telescope: start of commissioning
Authors: Volkmer, R.; von der Lühe, O.; Denker, C.; Solanki, S.;
   Balthasar, H.; Berkefeld, T.; Caligari, P.; Collados, M.; Halbgewachs,
   C.; Heidecke, F.; Hofmann, A.; Klvana, M.; Kneer, F.; Lagg, A.; Popow,
   E.; Schmidt, D.; Schmidt, W.; Sobotka, M.; Soltau, D.; Strassmeier, K.
2010SPIE.7733E..0KV    Altcode: 2010SPIE.7733E..18V
  With the integration of a 1-meter Cesic primary mirror the GREGOR
  telescope pre-commissioning started. This is the first time, that
  the entire light path has seen sunlight. The pre-commissioning period
  includes testing of the main optics, adaptive optics, cooling system,
  and pointing system. This time was also used to install a near-infrared
  grating spectro-polarimeter and a 2D-spectropolarimeter for the visible
  range as first-light science instruments. As soon as the final 1.5
  meter primary mirror is installed, commissioning will be completed,
  and an extended phase of science verification will follow. In the near
  future, GREGOR will be equipped with a multi-conjugate adaptive optics
  system that is presently under development at KIS.

---------------------------------------------------------
Title: Auxiliary full-disc telescope for the European Solar Telescope
Authors: Sobotka, Michal; Klvaña, Miroslav; Melich, Zbynék; Rail,
   Zdenék; Bettonvil, Felix; Gelly, Bernard
2010SPIE.7735E..1ZS    Altcode: 2010SPIE.7735E..67S
  The Auxiliary Full-Disc Telescope (AFDT) will be used for the
  orientation of the observer on the solar disc and in its surroundings,
  for an easy guidance of the European Solar Telescope (EST) to a selected
  target, and for precise coordinate measurements. AFDT can be used as an
  autonomous robotic telescope for synoptic observations and records of
  solar activity also when no observations are carried out at the EST main
  telescope. The principal functions of AFDT and the related requirements
  are summarised. The specific axial mechanical structure accommodating
  the refractor optical system is outlined. The optical system and its
  components are described. Two alternatives of the positional control
  system - the active guiding system and the passive guiding system -
  are described and their functionality is analysed.

---------------------------------------------------------
Title: GREGOR solar telescope: Design and status
Authors: Volkmer, R.; von der Lühe, O.; Denker, C.; Solanki, S. K.;
   Balthasar, H.; Berkefeld, T.; Caligari, P.; Collados, M.; Fischer, A.;
   Halbgewachs, C.; Heidecke, F.; Hofmann, A.; Klvaňa, M.; Kneer, F.;
   Lagg, A.; Popow, E.; Schmidt, D.; Schmidt, W.; Sobotka, M.; Soltau,
   D.; Strassmeier, K. G.
2010AN....331..624V    Altcode:
  The integration and verification phase of the GREGOR telescope
  reached an important milestone with the installation of the
  interim 1 m SolarLite primary mirror. This was the first time
  that the entire light path had seen sunlight. Since then extensive
  testing of the telescope and its subsystems has been carried out. The
  integration and verification phase will culminate with the delivery and
  installation of the final 1.5 m Zerodur primary mirror in the summer of
  2010. Observatory level tests and science verification will commence in
  the second half of 2010 and in 2011. This phase includes testing of the
  main optics, adaptive optics, cooling and pointing systems. In addition,
  assuming the viewpoint of a typical user, various observational modes
  of the GREGOR Fabry-Pérot Interferometer (GFPI), the Grating Infrared
  Spectrograph (GRIS), and high-speed camera systems will be tested to
  evaluate if they match the expectations and science requirements. This
  ensures that GREGOR will provide high-quality observations with its
  combination of (multi-conjugate) adaptive optics and advanced post-focus
  instruments. Routine observations are expected for 2012.

---------------------------------------------------------
Title: Measurements of chromospheric velocity fields by means of
    the Coimbra University spectroheliograph
Authors: Garcia, A.; Klvaňa, M.; Sobotka, M.
2010CEAB...34...47G    Altcode:
  The Coimbra University spectroheliograph produces high-quality
  full-disc spectroheliograms in the lines Hα, Ca II K3, Ca II K1, and
  adjacent continua. The reduction software was extended to enable the
  measurement of velocity fields in Hα. We describe the instrument, the
  data processing, present the first results of the velocity measurements,
  and discuss the possibilities of improvement of their quality.

---------------------------------------------------------
Title: Dynamics of Active Regions Revealed by Tracking of Doppler
    Features
Authors: Švanda, M.; Sobotka, M.; Klvaňa, M.; Bumba, V.
2010ASSP...19..410S    Altcode: 2010mcia.conf..410S
  We investigate the large-scale horizontal dynamics of active regions in
  the 23rd solar cycle. The large-scale horizontal velocity fields were
  measured applying the local correlation tracking (LCT) algorithm to the
  processed high-cadence full-resolution full-disc MDI Dopplergrams. We
  performed the selection of NOAA active regions in the available dataset
  and followed their individual evolution in time. The statistical study
  of this sample gives us a unique opportunity to study the dynamics
  of active regions at various stages of their evolution. In few cases,
  we found behavior that is consistent with the dynamical disconnection
  of sunspots from the magnetic roots.

---------------------------------------------------------
Title: Evolution of Umbral Dots and Penumbral Grains
Authors: Sobotka, M.; Jurčák, J.
2010ASSP...19..507S    Altcode: 2010mcia.conf..507S
  On 27 February 2007, Hinode SOT/SP acquired a time series of full-Stokes
  spectra of a regular, medium-sized sunspot NOAA 10944 located near
  the center of the solar disk. The inversion code SIR (Ruiz Cobo and
  del Toro Iniesta 1992, ApJ 398, 375) was applied to these data and a
  3-h long time series of 34 spatial 3D maps of plasma parameters in the
  umbra and penumbra were computed. The temporal and spatial resolutions
  are 5.5 min and 0 :0032, respectively. A simultaneous series of SOT/BFI
  G-band images was utilized for complementary measurements of horizontal
  motions and sizes of small-scale features.

---------------------------------------------------------
Title: Transport of Supergranules and their Vertical Coherence
Authors: Švanda, M.; Kosovichev, A. G.; Klvaňa, M.; Sobotka, M.;
   Duvall, T. L., Jr.
2009ASPC..416..547S    Altcode:
  In recent papers, we have introduced a method for measuring the
  photospheric flow field that is based on the tracking of supergranular
  structures. Here, in combination with helioseismic data, we are
  able to estimate the depth in the solar convection envelope to
  which the detected large-scale flow field is coherent. We show that
  the upper 10 Mm in the convection zone depicts similar features in
  horizontal velocity. Our interpretation of this observation is that
  the supergranulation is a coherent structure 10 Mm deep and is subject
  to large-scale transport by the underlying velocity field.

---------------------------------------------------------
Title: Large-scale horizontal flows in the solar
    photosphere. V. Possible evidence for the disconnection of bipolar
    sunspot groups from their magnetic roots
Authors: Švanda, M.; Klvaňa, M.; Sobotka, M.
2009A&A...506..875S    Altcode: 2009arXiv0908.3183S
  In a recent paper (Švanda et al. 2008, A&amp;A, 477, 285) we pointed
  out that, based on the tracking of Doppler features in the full-disc
  MDI Dopplergrams, the active regions display two dynamically different
  regimes. We speculated that this could be a manifestation of the
  sudden change in the active regions dynamics, caused by the dynamic
  disconnection of sunspots from their magnetic roots as proposed by
  Schüssler &amp; Rempel (2005, A&amp;A, 441, 337). Here we investigate
  the dynamic behaviour of the active regions recorded in the high-cadence
  MDI data over the last solar cycle in order to confirm the predictions
  in the Schüssler's &amp; Rempel's paper. We find that, after drastic
  reduction of the sample, which is done to avoid disturbing effects,
  a large fraction of active regions displays a sudden decrease in the
  rotation speed, which is compatible with the mechanism of the dynamic
  disconnection of sunspots from their parental magnetic structures.

---------------------------------------------------------
Title: Morphology and evolution of umbral dots and their substructures
Authors: Sobotka, M.; Puschmann, K. G.
2009A&A...504..575S    Altcode: 2009arXiv0907.4236S
  Context: Substructures - dark lanes and tails - of umbral dots (UDs)
  were predicted by numerical simulations of magnetoconvection and have
  been detected later in some observations. <BR />Aims: To provide
  constraints for realistic theoretical models of sunspot umbrae, we
  describe the observed properties and evolutionary characteristics of
  UDs (including their substructure) and of other umbral structures. <BR
  />Methods: We analyse a 6 h 23 min time series of broadband images
  of a large umbra in the active region NOAA 10634, acquired with the
  1-m Swedish Solar Telescope, in the wavelength band around 602 nm. A
  43 min part of this series was reconstructed with the MFBD method,
  reaching a spatial resolution of 0.14 arcsec. With the help of image
  segmentation, feature tracking, and local correlation tracking,
  we measured brightness, size, lifetime, and horizontal velocities
  of various umbral structures. <BR />Results: Large structures in the
  umbra - strong and faint light bridges (LBs) and an extended penumbral
  filament - evolve on time scales of hours. Most (90%) of UDs and bright
  point-like features in faint LBs split and merge, and their median
  lifetimes are 3.5 or 5.7 min, depending on whether the split or merge
  event is considered as the end of their life. Both UDs and features in
  faint LBs that do not split or merge are clearly smaller (0.15 arcsec)
  than the average size (0.17 arcsec) of all features. Horizontal motions
  of umbral bright small-scale features are directed either into the
  umbra or along faint LBs with mean horizontal velocities of 0.34 km
  s<SUP>-1</SUP>. Features faster than 0.4 km s<SUP>-1</SUP> appear
  mostly at the periphery of the umbra. The motion of peripheral UDs
  (PUDs) seems to be the continuation of the motion of penumbral grains
  (PGs). The intensity of dark lanes, measured in four bright central UDs
  (CUDs), is by a factor 0.8 lower than the peak intensity of CUDs. The
  width of dark lanes is probably less than the resolution limit 0.14
  arcsec. The characteristic time of substructure changes of UDs is ~4
  min. We observe narrow (0.14 arcsec) bright and dark filaments connected
  with PUDs. The bright filaments are 0.06 I_ph brighter than the dark
  ones. Usually one dark and two bright filaments form a 0.4 arcsec
  wide tail attached to one PUD, resembling a short dark-cored penumbral
  filament. <BR />Conclusions: Our results indicate the similarity between
  PUDs and PGs located at the tips of bright penumbral filaments. The
  features seen in numerical MHD simulations are consistent with our
  observations of dark lanes in CUDs and tails attached to PUDs.

---------------------------------------------------------
Title: Examples of Science Cases and Requirements for EST
Authors: Sobotka, M.; Heinzel, P.; Kašparová, J.
2009ASPC..405..455S    Altcode:
  We present various suggestions for the study of flares (fast emission
  variations, heating mechanisms), prominences (fine structure, magnetic
  field, energy balance), and sunspots (umbral structure, heating
  mechanisms, depth and structure of the penumbra, Evershed flow). From
  these cases we derive the requirements for the future European Solar
  Telescope: spectropolarimetric capabilities, high signal-to-noise ratio,
  multi-line spectroscopy, high spatial and temporal resolution.

---------------------------------------------------------
Title: Large-scale horizontal flows in the solar photosphere IV. On
    the vertical structure of large-scale horizontal flows
Authors: Švanda, M.; Klvaňa, M.; Sobotka, M.; Kosovichev, A. G.;
   Duvall, T. L.
2009NewA...14..429S    Altcode: 2008arXiv0812.1971S
  In the recent papers, we introduced a method utilised to measure
  the flow field. The method is based on the tracking of supergranular
  structures. We did not precisely know, whether its results represent
  the flow field in the photosphere or in some subphotospheric
  layers. In this paper, in combination with helioseismic data, we
  are able to estimate the depths in the solar convection envelope,
  where the detected large-scale flow field is well represented by
  the surface measurements. We got a clear answer to question what
  kind of structures we track in full-disc Dopplergrams. It seems that
  in the quiet Sun regions the supergranular structures are tracked,
  while in the regions with the magnetic field the structures of the
  magnetic field are dominant. This observation seems obvious, because
  the nature of Doppler structures is different in the magnetic regions
  and in the quiet Sun. We show that the large-scale flow detected by
  our method represents the motion of plasma in layers down to ∼10
  Mm. The supergranules may therefore be treated as the objects carried
  by the underlying large-scale velocity field.

---------------------------------------------------------
Title: Evolution of Physical Characteristics of Umbral Dots and
    Penumbral Grains
Authors: Sobotka, M.; Jurčák, J.
2009ApJ...694.1080S    Altcode:
  A time series of full-Stokes spectropolarimetric observations of
  the sunspot NOAA 10944, acquired with HINODE/SOT in 2007 February, is
  analyzed. The data were inverted using the code SIR into a series of 34
  maps covering 3 hr of umbra and penumbra evolution. The retrieved maps
  of plasma parameters show the spatial distribution of temperature,
  line-of-sight velocity, magnetic field strength, and inclination
  in two different ranges of optical depths corresponding to the low
  and high photosphere. In these maps, the evolution of central and
  peripheral umbral dots (CUDs and PUDs) and penumbral grains (PGs) was
  traced. While CUDs do not show any excess of line-of-sight velocity
  and magnetic field inclination with respect to the surrounding umbra,
  upflows of 400 m s<SUP>-1</SUP> and a more horizontal magnetic field
  are detected in the low photospheric layers of PUDs. PGs have even
  stronger upflows and magnetic field inclination in the low photosphere
  than PUDs. The absolute values of these parameters decrease when PGs
  evolve into PUDs. It seems that PGs and PUDs are of a similar physical
  nature. Both classes of features appear in regions with a weaker and
  more horizontal magnetic field and their formation height reaches
  the low photosphere. On the other hand, CUDs appear in regions with
  a stronger and more vertical magnetic field and they are formed too
  deep to detect upflows and changes in magnetic field inclination.

---------------------------------------------------------
Title: Tracking of Supergranules - Does It Make Any Sense?
Authors: Svanda, M.; Klvaòa, M.; Sobotka, M.
2008ESPM...12.2.10S    Altcode: 2008arXiv0809.4757S
  The motions of the plasma and structures in and below the solar
  photosphere is not well understood. The results obtained using various
  methods cannot be in general considered as consistent, especially in
  details. In this contribution we show a summary of the results obtained
  by the method we have developed recently. <P />To study the photospheric
  dynamics we apply the local correlation tracking algorithm to the
  series of full-disc Dopplergrams obtained by Michelson Doppler Imager
  (MDI) on-board the SoHO observatory. The dominant structures recorded
  in the Dopplergrams are supergranules. Under the assumtion that the
  supergranules are carried by the flow field of the larger scale, we
  study properties of this underlying velocity field. The methodology
  consists of an extensive data processing of primary data in order to
  suppress disturbing effects such as p-modes of solar oscillations
  or instrumental issues. Aditional coordinate transformations
  are also needed to make the data suitable for tracking. <P />We
  perform comparative tests with synthetic data with known properties
  and with results of time-distance helioseismology with a great
  success. Correlation coeficients of the comparison of mean components
  of the flow field are larger than 0.8, for the comparison of details
  in the vector velocity field the correlation coeficient is larger than
  0.6. <P />The results of the method applied to the real data agree
  well with well-known features detected in the photospheric velocity
  fields and reported by many other authors. With the proposed method
  we detect differential rotation, meridional circulation, torsional
  oscillations, and other features. A few case studies are shown to
  demonstrate the performance of the method. <P />As a conclusion
  let's answer the question in the title. We believe that tracking of
  supergranules makes a perfect sense when studying the large-scale
  flows in the solar photosphere. The method we demonstrate is suitable
  to detect large-scale velocity field with effective resolution of 60"
  and random error of 15 m/s. We believe that our method may provide a
  powerful tool for studies related to the dynamic behaviour of plasmas
  in the solar photosphere.

---------------------------------------------------------
Title: The Conception of the Full-disc Telescope for EST Instrument
Authors: Klvana, M.; Sobotka, M.; Svanda, M.
2008ESPM...12.2.73K    Altcode:
  In year 2008 European Association for Solar Telescopes (EAST)
  started to carry out the project of the European Solar Telescope (EST)
  instrument. The main telescope of EST is expected to have a diameter of
  4 m and therefore it will become one of the biggest solar telescopes
  in the world. The main telescope will be connected to the smaller
  full-disc solar telescope, the development of which is carried out by
  our group. <P />In this contribution we present optical and mechanical
  demands of the telescope, its optical design and the description of
  the basic operation regimes. We analyse the possibilities of inclusion
  of this full-disc telescope in the general EST controlling system. We
  show that the small telescope can be used for alignment of the main
  telescope and for the determination of the changing instrumental
  constants of the instrument during a long-term run.

---------------------------------------------------------
Title: Differences between Central and Peripheral Umbral Dots
Authors: Sobotka, M.; Jurcak, J.
2008ESPM...12.2.23S    Altcode:
  A time series of full-Stokes spectropolarimetric observations of the
  sunspot NOAA 10944, acquired with Hinode SOT/SP in February 2007,
  is analysed. The data were inverted using the code SIR into a series
  of 33 maps covering 3 hours of the umbra and penumbra evolution. Each
  map describes the spatial distribution of temperature, line-of-sight
  velocity, and magnetic field vector in two different ranges of optical
  depths corresponding to lower and upper photosphere. In these maps,
  several long-lived central (CUDs) and moving peripheral (PUDs)
  umbral dots were selected and their evolution was traced. While CUDs
  show only a very weak signature of LOS velocity and magnetic field
  inclination, in the low layers of PUDs were detected upflows of 500
  m/s and an enhanced field inclination with respect to the surrounding
  umbra. These parameters decrease gradually during the evolution of
  PUDs. Hence, concerning the physical characteristics, PUDs resemble
  rather penumbral grains (from which they often originate) than CUDs.

---------------------------------------------------------
Title: Large-scale horizontal flows in the solar
    photosphere. II. Long-term behaviour and magnetic activity response
Authors: Švanda, M.; Klvaňa, M.; Sobotka, M.; Bumba, V.
2008A&A...477..285S    Altcode: 2007arXiv0710.2693S
  We have developed a method to map large-scale horizontal velocity
  fields in the solar photosphere. The method was developed, tuned, and
  calibrated using synthetic data. Now, we apply the method to the series
  of Michelson Doppler Imager (MDI) Dopplergrams covering almost one
  solar cycle to generate the information about the long-term behaviour
  of surface flows. Our method clearly reproduces the widely accepted
  properties of mean flow field components, such as torsional oscillations
  and a pattern of meridional circulation. We also performed a period
  analysis, however due to the data series length and large gaps we did
  not detect any significant periods. The relation between the magnetic
  activity and the mean zonal motion is studied. We found evidence
  that the emergence of compact magnetic regions locally accelerates
  the rotation of the supergranular pattern in their vicinity and that
  the presence of magnetic fields generally decelerates the rotation in
  the equatorial region. Our results show that active regions in the
  equatorial region emerge, exhibiting a constant velocity (faster by
  60 ± 9 m s<SUP>-1</SUP> than the Carrington rate), suggesting that
  they emerge from the base of the surface radial shear at 0.95 R_⊙,
  disconnect from their magnetic roots, and slow down during their
  evolution.

---------------------------------------------------------
Title: Kinematics of Umbral Fine Structure
Authors: Sobotka, M.; Puschmann, K. G.; Hamedivafa, H.
2008CEAB...32..125S    Altcode:
  A 2-hour long series of white-light images of a large sunspot acquired
  in June 2004 with the 1-m Swedish Solar Telescope at La Palma is
  utilized to study the evolution and motions of small-scale umbral
  structures - umbral dots and features in faint light bridges. For
  this purpose, a newly improved feature-tracking code is applied. The
  small-scale structures move with average speeds of 0.34 km s^{-1} either
  into the umbra or along the faint light bridges. Structures that do not
  split or merge are smaller (0.15 arcsec) than the average size (0.17
  arcsec). Brightness and size variations of individual non-split/merge
  structures are positively correlated during their evolution.

---------------------------------------------------------
Title: The Use of Spectro-Polarimetric Measurements to determine
    the Plasma Heating
Authors: Jurčák, J.; Martinez Pillet, V.; Sobotka, M.
2007ASPC..369..171J    Altcode:
  We present the possible use of spectro-polarimetric measurements on
  a set of data recorded with La Palma Stokes Polarimeter attached to
  the Swedish Vacuum Solar Telescope. The stratification over the solar
  atmosphere of different physical parameters is retrieved from these data
  using the Stokes Inversion based on Response functions (SIR). We derive
  the vertical component of electric current density coming out from the
  stratification of the magnetic field strength and orientation of the
  magnetic field vector. We also found spatial and height correlation
  between the temperature enhancement and increase of electric current
  density, this could be caused by the energy dissipation stored in the
  magnetic field configuration.

---------------------------------------------------------
Title: Properties of sunspot moats derived from horizontal motions
Authors: Sobotka, M.; Roudier, T.
2007A&A...472..277S    Altcode:
  Context: Sunspots in late phases of evolution are usually surrounded by
  annular moats, regions where systematic horizontal flows are observed
  to be directed radially away from the spot. These flows are considered
  to be a manifestation of the sub-photospheric convection. <BR />Aims:
  The characteristics of moats are derived at two different heights
  in the solar atmosphere from horizontal motions around sunspots of
  different sizes, shapes, and phases of evolution. We also study the
  temporal evolution of moats. <BR />Methods: Local correlation tracking
  is applied to approximately 70-min long time series of white-light
  and 1600 Å images, acquired by the satellite TRACE, to analyse the
  horizontal motions of photospheric granules and C IV emission structures
  in the vicinity of 32 sunspots. Moat regions are defined by means of
  radially-oriented, outward velocities. <BR />Results: Relations between
  sunspot types and the occurrence, areas, and horizontal velocities of
  moats in the photosphere and transition region are described. Moats do
  not show substantial changes during the period of about 12 h. Observed
  asymmetries in moat shapes and velocities are related to the height in
  the atmosphere, to sunspot age, and to proper motion. It is suggested
  that the sub-photospheric convective flows around sunspots may be
  influenced by the spots' proper motion through the convection zone.

---------------------------------------------------------
Title: Joint Discussion 3 Solar active regions and 3D magnetic
    structure
Authors: Choudhary, Debi Prasad; Sobotka, Michal
2007HiA....14..139C    Altcode:
  Keeping in view of the modern powerful observing tools, among
  others Hinode (formerly SOLAR-B), STEREO and Frequency-Agile Solar
  Radiotelescope, and sophisticated modelling techniques, Joint Discussion
  3 during the IAU General Assembly 2006 focused on the properties of
  magnetic field of solar active regions starting in deep interior of
  the Sun, from where they buoyantly rise to the coronal heights where
  the site of most explosive events are located. Intimately related with
  the active regions, the origin and evolution of the magnetic field
  of quiet Sun, the large scale chromospheric structures were also the
  focal point of the Joint Discussion. The theoretical modelling of the
  generation and dynamics of magnetic field in solar convective zone show
  that the interaction of the magnetic field with the Coriolis force
  and helical turbulent convection results in the tilts and twists in
  the emerging flux. In the photosphere, some of these fluxes appear in
  sunspots with field strengths up to about 6100 G. Spectro-polarimetric
  measurements reveal that the line of sight velocities and magnetic
  field of these locations are found to be uncombed and depend on depth in
  the atmosphere and exhibit gradients or discontinuities. The inclined
  magnetic fields beyond penumbra appear as moving magnetic features
  that do not rise above upper photospheric heights. As the flux rises,
  the solar chromosphere is the most immediate and intermediary layer
  where competitive magnetic forces begin to dominate their thermodynamic
  counterparts. The magnetic field at these heights is now measured
  using several diagnostic lines such as Ca II 854.2 nm, H I 656.3 nm,
  and He I 1083.0 nm. The radio observations show that the coronal
  magnetic field of post flare loops are of the order of 30 G, which
  might represent the force-free magnetic state of active region in the
  corona. The temperatures at these coronal heights, derived from the
  line widths, are in the range from 2.4 to 3.7 million degree. The same
  line profile measurements indicate the existence of asymmetric flows
  in the corona. The theoretical extrapolation of photospheric field
  into coronal heights and their comparison with the observations show
  that there exists a complex topology with separatrices associated to
  coronal null points. The interaction of these structures often lead to
  flares and coronal mass ejections. The current MHD modelling of active
  region field shows that for coronal mass ejection both local active
  region magnetic field and global magnetic field due to the surrounding
  magnetic flux are important. Here, we present an extended summary of
  the papers presented in Joint Discussion 03 and open questions related
  to the solar magnetic field that are likely to be the prime issue with
  the modern observing facilities such as Hinode and STEREO missions.

---------------------------------------------------------
Title: GREGOR: the New German Solar Telescope
Authors: Balthasar, H.; von der Lühe, O.; Kneer, F.; Staude, J.;
   Volkmer, R.; Berkefeld, T.; Caligari, P.; Collados, M.; Halbgewachs,
   C.; Heidecke, F.; Hofmann, A.; Klvaňa, M.; Nicklas, H.; Popow, E.;
   Puschmann, K.; Schmidt, W.; Sobotka, M.; Soltau, D.; Strassmeier,
   K.; Wittmann, A.
2007ASPC..368..605B    Altcode: 2007arXiv0704.2693B
  GREGOR is a new open solar telescope with an aperture of 1.5 m. It
  replaces the former 45-cm Gregory Coudé telescope on the Canary island
  Tenerife. The optical concept is that of a double Gregory system. The
  main and the elliptical mirrors are made from a silicon-carbide material
  with high thermal conductivity. This is important to keep the mirrors
  on the ambient temperature avoiding local turbulence. GREGOR will be
  equipped with an adaptive optics system. The new telescope will be ready
  for operation in 2008. Post-focus instruments in the first stage will be
  a spectrograph for polarimetry in the near infrared and a 2-dimensional
  spectrometer based on Fabry-Pérot interferometers for the visible.

---------------------------------------------------------
Title: Horizontal Motions in the Vicinity of Sunspots
Authors: Sobotka, M.; Roudier, T.
2007ASPC..368..259S    Altcode:
  Many sunspots in late phases of evolution are surrounded by an annular
  “moat”, where systematic horizontal flows radially away from the
  sunspot are observed. Applying the local correlation tracking technique
  to series of white-light and 1600 Å images acquired by the satellite
  TRACE, we use photospheric granules and C IV emission structures to
  track horizontal motions in the vicinity of sunspots of different
  sizes, shapes, and phases of evolution. We define the moat regions on
  the basis of horizontal motions. We present preliminary results about
  the relations between the sunspot types and the occurrence, areas, and
  velocities of the moats in the photosphere and chromosphere. Further
  we analyze observed asymmetries in moat shapes and velocities and
  their relation to the sunspot age and proper motion.

---------------------------------------------------------
Title: Observational Evidence for Rising Penumbral Flux Tubes?
Authors: Jurčák, J.; Sobotka, M.
2007SoPh..241..223J    Altcode:
  On 13 May 2000 parts of a penumbra were observed in an active region
  NOAA 8990 with the La Palma Stokes Polarimeter attached to the Swedish
  Vacuum Solar Telescope. The stratification over the solar atmosphere of
  different physical parameters is retrieved from these data by using the
  Stokes inversion based on response functions. The results confirm the
  previous findings of the penumbral structure. In general, the magnetic
  field becomes weaker and more horizontal with increasing distance from
  the umbra and the line-of-sight velocities are increasing towards the
  outer boundary of the penumbra. The results also suggest the existence
  of the unresolved fine structure of the penumbra. The stratifications
  of the temperature and of the magnetic field strength indicate the
  presence of rising flux tubes, which were predicted theoretically by
  Schlichenmaier, Jahn and Schmidt (1998, Astron. Astrophys.337, 897).

---------------------------------------------------------
Title: New high resolution solar telescope GREGOR
Authors: Volkmer, R.; von der Lühe, O.; Kneer, F.; Staude, J.;
   Balthasar, H.; Berkefeld, T.; Caligari, P.; Collados, M.; Halbgewachs,
   C.; Heidecke, F.; Hofmann, A.; Klvaña, M.; Sobotka, M.; Nicklas, H.;
   Popow, E.; Puschmann, K. G.; Schmidt, W.; Soltau, D.; Strassmeier,
   K.; Wittmann, A. D.
2007msfa.conf...39V    Altcode:
  The 1.5m solar telescope GREGOR is being constructed at Tenerife,
  Spain. Its purpose is to observe with high spatial and spectral
  resolution small-scale dynamic magnetic features on the Sun. The
  telescope is completely open with retractable dome and actively cooled
  primary mirror made of silicon carbide to minimize thermal effects
  on the image quality. After completion it will be one of the most
  powerful solar telescopes. This paper presents a general overview of
  the telescope characteristics and the current status.

---------------------------------------------------------
Title: The observational counterpart of the rising flux tube model?
Authors: Jurčák, J.; Sobotka, M.
2007msfa.conf..225J    Altcode:
  An analysis of Stokes observations of a penumbra in active region NOAA
  8990 is presented. The observations were recorded with the La Palma
  Stokes Polarimeter attached to the 1-m Swedish Solar Telescope. The
  stratification in the solar atmosphere of different physical parameters
  is retrieved from these data using the Stokes Inversion based on
  Response functions (SIR). Our results confirm previous findings,
  that with increasing distance from the umbra the magnetic field
  becomes weaker and more horizontal and the line-of-sight velocities
  increase. The results suggest the existence of unresolved filamentary
  structure in the spatial distributions of temperature, magnetic field
  strength and inclination. The maps of temperature and magnetic field
  strength along the vertical cuts through the penumbra indicate the
  presence of rising flux tubes, predicted theoretically by Schlichenmaier
  et al. (1998).

---------------------------------------------------------
Title: Fine structure in a dark umbra
Authors: Sobotka, M.; Puschmann, K. G.
2007msfa.conf..205S    Altcode:
  An excellent-quality time series of images of a large dark umbra of
  the leading sunspot of NOAA 10634 was acquired on 18 June 2004 with the
  1-m Swedish Solar Telescope at La Palma, simultaneously in blue, red,
  and G-band channels. The temporal and spatial resolutions are 20 s and
  0".14. A 2-hour long series of the red continuum images is analysed,
  showing the faintest umbral fine structures. In addition to umbral dots,
  often clustered to more stable "granules" or aligned to short chains,
  we observe large, low-intensity elongated structures with dark central
  channels, resembling extremely faint light bridges. At the periphery
  of the umbra, bright umbral dots move inwards, showing a similarity
  to penumbral grains. Kinematic properties of umbral fine structures
  are studied.

---------------------------------------------------------
Title: Large-scale horizontal flows in the solar
    photosphere. I. Method and tests on synthetic data
Authors: Švanda, M.; Klvaňa, M.; Sobotka, M.
2006A&A...458..301S    Altcode: 2006astro.ph..8443S
  We propose a useful method for mapping large-scale velocity
  fields in the solar photosphere. It is based on the local <P
  />correlation tracking algorithm when tracing supergranules in
  full-disc dopplergrams. The method was developed using synthetic
  data. <P />The data are transformed during the data processing into
  a suitable coordinate system, the noise is removed, and finally the
  velocity field is <P />calculated. Resulting velocities are compared
  with the model velocities and the calibration is done. From our results
  it becomes clear that <P />this method could be applied to full-disc
  dopplergrams acquired by the Michelson Doppler Imager (MDI) onboard
  the Solar and Heliospheric Observatory (SoHO).

---------------------------------------------------------
Title: Dynamics of Magnetic Bright Points in an Active Region
Authors: Möstl, C.; Hanslmeier, A.; Sobotka, M.; Puschmann, K.;
   Muthsam, H. J.
2006SoPh..237...13M    Altcode: 2006SoPh..tmp....2M
  A high-quality 80-minute time series of a part of a sunspots moat
  (18 ″ × 23 ″) in the G-band (4308.64 Å) has been analysed
  to measure the horizontal velocities of Magnetic Bright Points
  (MBPs). The observations were carried out in June 2004 at the new
  1-meter Swedish Solar Telescope in La Palma. Spatial resolution was
  estimated to be 0.17 ″ or 125 km on the Sun, and images were taken
  in a frame selection mode in a 20-seconds interval. Individual feature
  tracking of MBPs with manual selection and automated tracking has been
  performed. The intensity of MBPs increases with size. The mean value
  in a MBP-velocity histogram was found to be 1.11 km s <SUP>−1</SUP>
  and it shows good accordance with an abnormal granulation-velocity
  histogram. MBP velocity histograms as presented here can be taken
  as an input for coronal heating models in an active region. However,
  MBPs move slower in an active region than in the network (presumably
  because of the higher active region magnetic flux) and hence, a process
  that includes dissipation of MHD waves through fast MBP motions (&gt;2
  km s <SUP>−1</SUP>) may not alone explain the observed properties
  of the corona.

---------------------------------------------------------
Title: The magnetic canopy above light bridges
Authors: Jurčák, J.; Martínez Pillet, V.; Sobotka, M.
2006A&A...453.1079J    Altcode:
  An analysis of high-resolution Stokes observations of two light
  bridges in active region NOAA 8990 is presented. The observations were
  recorded with the La Palma Stokes Polarimeter attached to the Swedish
  Vacuum Solar Telescope. The stratification over the solar atmosphere
  of different physical parameters is retrieved from these data using
  the Stokes inversion based on response functions (SIR). Our results
  confirm previous observations of features such as the decrease in
  magnetic field strength and the increase in inclination in the light
  bridges. We also confirm a temperature increase in these structures
  with respect to the surrounding umbrae. The maps of the magnetic field
  strength and of the orientation of the magnetic field vector indicate
  the presence of a canopy structure above the light bridges. We derive
  the vertical component of electric current density (J_z) from the
  configuration of the magnetic field. The increased temperature found
  in the upper layers is studied in the context of the proposed canopy
  topology and could also explain the recently observed chromospheric
  heating processes found above light bridges.

---------------------------------------------------------
Title: The new 1.5m solar telescope GREGOR: first light and start
    of commissioning
Authors: Volkmer, Reiner; von der Lühe, Oskar; Kneer, Franz; Staude,
   Jürgen; Berkefeld, Thomas; Caligari, Peter; Halbgewachs, Clemens;
   Heidecke, Frank; Schmidt, Wolfgang; Soltau, Dirk; Nicklas, Harald;
   Wittmann, Axel; Balthasar, Horst; Hofmann, Axel; Strassmeier, Klaus;
   Sobotka, Michal; Klvana, Miroslav; Collados, Manuel
2006SPIE.6267E..0WV    Altcode: 2006SPIE.6267E..29V
  The integration of the three main silicon carbide mirrors into the new
  1.5 m solar telescope GREGOR at Izana on Tenerife, Spain is planned
  during 2006. We expect first light at the end of 2006. A progress
  report about integration of the optics and mechanics and planning of
  the commissioning phase of the telescope and post focus instruments
  will be presented at the meeting. The GREGOR telescope is build by a
  consortium of the Kiepenheuer Institut fur Sonnenphysik in Freiburg,
  the Astrophysikalische Institut Potsdam, the Institut fur Astronomie
  Gottingen and additional national and international Partners.

---------------------------------------------------------
Title: The Canopy Structure above Light Bridges
Authors: Jurčák, J.; Sobotka, M.; Martínez Pillet, V.
2006CEAB...30...55J    Altcode:
  An analysis of high-resolution Stokes observations of two light bridges
  in the active region NOAA 8990 is presented. The observations were
  recorded with the La Palma Stokes Polarimeter attached to the Swedish
  Vacuum Solar Telescope. The stratification of different physical
  parameters is retrieved using the Stokes Inversion based on Response
  functions (SIR). Our results confirm the decrease of magnetic field
  strength and the increase of inclination in light bridges. We find a
  complex temperature stratification in these structures Coming out from
  the stratification of the magnetic field strength and the orientation
  of the magnetic field vector, we suggest a canopy structure above the
  light bridge. We derive the vertical component of electric current
  density (J<SUB>z</SUB>). The increase of J<SUB>z</SUB> corresponds to
  temperature enhancements that might be caused by the energy dissipation
  stored in the magnetic field.

---------------------------------------------------------
Title: The Magnetic Configuration in Light Bridges
Authors: Jurčák, J.; Sobotka, M.; Martínez Pillet, V.
2005ESASP.600E...8J    Altcode: 2005dysu.confE...8J; 2005ESPM...11....8J
  No abstract at ADS

---------------------------------------------------------
Title: Mapping of Large-Scale Photospheric Velocity Fields
Authors: Švanda, M.; Klvaňa, M.; Sobotka, M.
2005ESASP.600E..71S    Altcode: 2005ESPM...11...71S; 2005dysu.confE..71S
  No abstract at ADS

---------------------------------------------------------
Title: The structure of a penumbral connection between solar pores
Authors: Hirzberger, J.; Stangl, S.; Gersin, K.; Jurčák, J.;
   Puschmann, K. G.; Sobotka, M.
2005A&A...442.1079H    Altcode:
  High resolution 2D-spectro-polarimetric observations have been used
  to analyse the magnetic field and flow topologies of a penumbral
  connection between two opposite polarity solar pores. A filamentary
  structured Evershed-like material flow from one pore to the other
  along the magnetic field lines has been detected. The flow channels
  are co-spatial with bright penumbral filaments close to the pore which
  feeds the flow and the clear brightness-velocity relation vanishes close
  to the pore which represents the sink of the flow. The boundary between
  umbra and penumbra of the two pores show significant differences: bright
  comet-like penumbral grains represent endings of penumbral filaments
  at the flow sources whereas no such grains were found at the sinks of
  the flow. Furthermore, a systematic variation of the asymmetries of
  measured Stokes V profiles across the penumbral connection have been
  found. The obtained results are in accordance with the widely-accepted
  uncombed penumbra hypothesis and the moving flux tube model.

---------------------------------------------------------
Title: Photometry of umbral dots
Authors: Sobotka, M.; Hanslmeier, A.
2005A&A...442..323S    Altcode:
  Until now, the size of umbral dots has been considered to be below the
  resolution limit of large solar telescopes. We analyze observations
  of two sunspots and two pores, acquired in September 2003 with the
  new 1-m Swedish Solar Telescope, La Palma. White-light images with a
  resolution better than 0.15 arcsec were taken simultaneously in blue
  (451 nm) and red (602 nm) wavelength bands. They were corrected for
  scattered light and restored for the instrumental profile of the
  telescope. Intensities, diameters and positions of umbral dots were
  measured in aligned pairs of images in the blue and red wavelength
  band. We find that observed intensities of umbral dots are correlated
  with local intensities of umbral background. On average, UDs are by
  about 1000 K hotter than the coolest area in the umbra and by 500-1000
  K cooler than the undisturbed photosphere. Individual UDs may reach or
  exceed the average photospheric brightness and temperature. Histograms
  of observed diameters peak at 0.23 arcsec (170 km). This indicates
  that the majority of umbral dots are spatially resolved with the 1-m
  telescope. The mean nearest-neighbour distance between umbral dots is
  0.4 arcsec and their average observed filling factor is 9%. The method
  of two-colour photometry is discussed and applied to obtain average
  "true" intensities and diameters. About 50% of umbral dots are brighter
  than the quiet photosphere and the average "true" diameter of umbral
  dots is 100 km. However, the latter results might be influenced by
  systematic errors of the method.

---------------------------------------------------------
Title: The new 1.5 solar telescope GREGOR: progress report and
    results of performance tests
Authors: Volkmer, Reiner; von der Lühe, Oskar; Kneer, Franz; Staude,
   Jürgen; Berkefeld, Thomas; Caligari, Peter; Halbgewachs, Clemens;
   Schmidt, Wolfgang; Soltau, Dirk; Nicklas, Harald; Wittmann, Axel;
   Balthasar, Horst; Hofmann, Axel; Strassmeier, Klaus; Sobotka, Michal;
   Klvana, Miroslav; Collados, Manuel
2005SPIE.5901...75V    Altcode:
  The telescope structure including control system and the complete
  retractable dome of the new 1.5 m solar telescope GREGOR were
  assembled during 2004 at Izana on Tenerife, Spain. The GREGOR
  telescope is build by a consortium of the Kiepenheuer Institut fuer
  Sonnenphysik, the Astrophysikalische Institut Potsdam, the Institut
  fuer Astrophysik Goettingen and additional national and international
  Partners. Pointing, tracking and thermal tests were made to verify
  the proposed performance. The results of these tests and a progress
  report of the project will be presented.

---------------------------------------------------------
Title: Phase diversity restoration of sunspot images. II. Dynamics
    around a decaying sunspot
Authors: Bonet, J. A.; Márquez, I.; Muller, R.; Sobotka, M.;
   Roudier, Th.
2005A&A...430.1089B    Altcode:
  Two time series, taken simultaneously in the G-band and in white-light,
  and corrected for telescope aberrations and turbulence perturbations
  using the method of phase diversity, are employed to study the motions
  of granules and G-band bright points (GBPs) in the moat of an old
  regular sunspot. Local correlation tracking and feature tracking have
  been utilized for this purpose. A large-scale radial outflow with
  a mean velocity of 0.51 km s<SUP>-1</SUP> has been measured in the
  sunspot moat. Centres of diverging horizontal motions, identified
  with families of granules formed by repeatedly splitting granules,
  move away from the sunspot. Most of the GBPs in the moat also move
  outwards through radially orientated “channels” (confined between
  the borders of adjacent families) with velocities comparable to those
  of the adjacent granules. However, 6% of the GBPs move faster (&gt;1.4
  km s<SUP>-1</SUP>) than the neighbouring granules. GBPs in the moat
  are not regularly distributed but they are less frequent on its solar
  centre side.

---------------------------------------------------------
Title: Velocity Fields in an Irregular Sunspot
Authors: Jurčák, J.; Sobotka, M.; Martínez-Pillet, V.
2005ASSL..320..227J    Altcode: 2005smp..conf..227J
  No abstract at ADS

---------------------------------------------------------
Title: Motions of Supergranular Structures on the Solar Surface
Authors: Švanda, M.; Klnaňa, M.; Sobotka, M.
2005HvaOB..29...39S    Altcode:
  We present a method used to study motions of supergranular structures
  in the solar photosphere. It is based on the local correlation
  tracking method applied to full-disk dopplergrams measured by
  SoHO/MDI. In primary dopplergrams, there is a plenty of noise
  originating mostly from oscillations and morphological changes of
  the shape of supergranules. We describe a method used to suppress
  such noise. To demonstrate the suggested technique and properties of
  computed velocity fields, we processed a few-day period during the
  time of minimum of solar activity. The obtained vector velocity fields
  are drawn using streamlines in the Carrington's coordinate system. We
  discuss the reproductivity of the obtained results and the connection
  of the velocity field we found to the large-scale velocity field in
  the upper part of the convection zone.

---------------------------------------------------------
Title: Observational evidence of Joule heating in some umbral dots
Authors: Hamedivafa, H.; Sobotka, M.
2004A&A...428..215H    Altcode:
  We investigate the effect of the Joule heating (JH) mechanism on the
  brightness of umbral dots (UDs), proposed by Hamedivafa (\cite{H03},
  A&amp;A, 407, 761). Time series of high-resolution images of UDs in a
  developed sunspot and in a large pore are used for this purpose. The
  effect of the JH mechanism is characterized by a specific shape of
  the temporal variations of UD brightness and area and it is observed
  better in those UDs where the magnetic field strength is very weak
  compared to their surroundings. In our observations, about 12% of UDs
  in the sunspot and about 14% of UDs in the pore show indications of
  the effective presence of the JH power.

---------------------------------------------------------
Title: Progress report of the 1.5 m solar telescope GREGOR
Authors: Volkmer, Reiner; von der Lühe, Oskar F.; Kneer, Franz;
   Staude, Jürgen; Berkefeld, Thomas; Caligari, Peter; Schmidt,
   Wolfgang; Soltau, Dirk; Nicklas, Harald; Wiehr, Eberhardt; Wittmann,
   Axel; Balthasar, Horst; Hofmann, Axel; Strassmeier, Klaus; Sobotka,
   Michal; Klvana, Miroslav; Collados, Manuel
2004SPIE.5489..693V    Altcode:
  GREGOR is the new 1.5 m solar telescope assembled on Tenerife, Spain, by
  the German consortium of the Kiepenheuer Institut fur Sonnenphysik, the
  Astronomischen Institut Potsdam, the Universitats-Sternwarte Gottingen
  and other national and international Partners. The refurbishment of
  the building is almost finished. The manufacturing of the telescope
  structure and the optics is still in progress. After the integration of
  the new complete retractable dome in July 2004 the telescope structure,
  optic and post focus instruments will be assembled during the rest of
  the year. First light is planned during May 2005.

---------------------------------------------------------
Title: The Thermal and Magnetic Structure of Umbral Dots from the
    Inversion of High-Resolution Full Stokes Observations
Authors: Socas-Navarro, H.; Martínez Pillet, V.; Sobotka, M.;
   Vázquez, M.
2004ApJ...614..448S    Altcode:
  This paper presents the analysis of high-resolution Stokes observations
  of eight different umbral dots in a sunspot. The spectra were recorded
  with the La Palma Stokes Polarimeter, attached to the Swedish Vacuum
  Solar Telescope. The observed line profiles have been inverted to
  yield the height stratifications of temperature, magnetic field,
  and line-of-sight velocity, as well as their respective Wilson
  depressions. We report on systematic differences in the properties of
  umbral dots with respect to the nearby umbra, including small upflows
  (~100 m s<SUP>-1</SUP>), higher temperatures (~1 kK), and weaker fields
  (~500 G) with more horizontal orientations (~10°). The field weakening
  is strongly correlated with the Wilson depression, suggesting that
  it may be due to an opacity effect (as one is looking at higher
  layers). The inclination excess, on the other hand, is real and
  cannot be ascribed to formation height issues. The results obtained
  from our semiempirical modeling are discussed within the context
  of the currently existing scenarios for the subsurface structure of
  sunspots. The observational signatures revealed by our analysis fit
  well within both the “spaghetti” and the monolithic models.

---------------------------------------------------------
Title: Phase diversity restoration of sunspot images. I. Relations
    between penumbral and photospheric features
Authors: Bonet, J. A.; Márquez, I.; Muller, R.; Sobotka, M.;
   Tritschler, A.
2004A&A...423..737B    Altcode: 2004astro.ph..5542B
  We investigate the dynamics of and the relations between small-scale
  penumbral and photospheric features near the outer penumbral
  boundary: penumbral grains (PGs), dark penumbral fibrils, granules,
  and photospheric G-band bright points. The analysis is based on a 2 h
  time sequence of a sunspot close to disc center, taken simultaneously
  in the G-band and in the blue continuum at 450.7 nm. Observations
  were performed at the Swedish Vacuum Solar Telescope (La Palma)
  in July 1999. A total of 2564 images (46 arcsec × 75 arcsec) were
  corrected for telescope aberrations and turbulence perturbations by
  applying the inversion method of phase diversity. Our findings can by
  summarized as follows: (a) one third of the outward-moving PGs pass
  through the outer penumbral boundary and then either continue moving
  as small bright features or expand and develop into granules. (b)
  Former PGs and G-band bright points next to the spot reveal a different
  nature. The latter have not been identified as a continuation of PGs
  escaping from the penumbra. The G-band bright points are mostly born
  close to dark penumbral fibrils where the magnetic field is strong,
  whereas PGs stem from the less-magnetized penumbral component and
  evolve presumably to non-magnetic granules or small bright features.

---------------------------------------------------------
Title: Motions of photospheric features in a sunspot moat
Authors: Sobotka, M.; Bonet, J. A.; Márquez, I.; Muller R.;
   Roudier, Th.
2004HvaOB..28...27S    Altcode:
  Two time series, taken simultaneously in the G-band and the blue
  continuum, corrected for instrumental and atmospheric degradation
  using the method of phase diversity, are employed to study the motions
  of granules and G-band bright points (GBPs) in the moat of an old
  regular sunspot. Centres of diverging horizontal motions, identified
  with families of granules formed by recurrently splitting granules,
  move away from the sunspot. Most of GBPs show radially oriented motions
  in the same direction, with velocities comparable to those of adjacent
  granules. However, 7 % of GBPs move faster (&gt;1.4 km s<SUP>-1</SUP>)
  than the neighbouring granules.

---------------------------------------------------------
Title: Velocity fields in an irregular sunspot
Authors: Jurčák, J.; Sobotka, M.; Martínez-Pillet, V.
2003ESASP.535..109J    Altcode: 2003iscs.symp..109J
  Line-of-sight velocity fields in an irregular sunspot (NOAA 8990)
  have been determined from Stokes-I spectra of the line Fe I 630.15
  nm, obtained with the La Palma Stokes Polarimeter at the Swedish
  Vacuum Solar Telescope on May 13, 2000. We show and discuss the
  resulting velocity maps, the dependence of velocities on the
  continuum intensities, and the correlation between velocities and
  line asymmetries.

---------------------------------------------------------
Title: Dynamics of motions in the quiet photosphere
Authors: Svanda, M.; Klvana, M.; Sobotka, M.; Bumba, V.
2003ESASP.535..149S    Altcode: 2003iscs.symp..149S
  We determine the vector velocity fields describing the plasma motions
  in the quiet solar photosphere, using the motions of the supergranular
  structures, obtained by the analysis of series of Doppler measurements
  of velocity fields of the whole solar disk. It turned out that
  the studied vector velocity fields can be submerged under the noise
  level, originating due to the strong variability of the supergranular
  structures during their life time. We describe the method we used for
  the suppressing of such noise, and we bring the criterions used by
  the election of free parameters. We demonstrate examples of obtained
  vector velocity fields and of the resulting motions of matter on the
  visible photospheric surface. We discuss different factors influencing
  the reproductivness of obtained results. We construct a graph of the
  dependence of the differential rotation on the heliographic latitude
  from the mean vector velocity field, we got for the solar disk without
  expressive magnetic fields.

---------------------------------------------------------
Title: Current Status of the 1.5m Solar Telescope GREGOR
Authors: Volkmer, Reiner; von der Lühe, Oskar; Kneer, Franz; Staude,
   Jürgen; Berkfeld, Thomas; Schmidt, Wolfgang; Soltau, Dirk; Nicklas,
   Harald; Wiehr, Eberhardt; Wittman, Axel; Hofmann, Axel; Sobotka,
   Michal; Klvana, Miroslav
2003ANS...324..112V    Altcode: 2003ANS...324..P19V
  No abstract at ADS

---------------------------------------------------------
Title: GREGOR: the new 1.5m solar telescope on Tenerife
Authors: Volkmer, Reiner; von der Luehe, Oskar; Kneer, Franz; Staude,
   Juergen; Hofmann, Axel; Schmidt, Wolfgang; Sobotka, Michal; Soltau,
   Dirk; Wiehr, Eberhardt; Wittmann, Axel; Berkefeld, Thomas
2003SPIE.4853..360V    Altcode:
  The new 1.5 m high resolution telescope will be build up on the reused
  solar tower of the German 45 cm Gregory Coudé Telescope at the Teide
  Observatory, Izaña, Tenerife. The new telescope is a Gregory type
  with open telescope structure, alt-azimuth mount, complete retractable
  dome, and a pool of well established and new developed post focus
  instruments. An adaptive optics system provides the capability for
  diffraction limited observations at visible wavelengths and the
  polarimetry device in the secondary focus reduces the perturbation
  due to instrumental polarization in an efficient way. We describe the
  main optical characteristics and the focal plane instrumentation with
  respect to the latest status of the project.

---------------------------------------------------------
Title: Infrared photometry of a sunspot near the disk center
Authors: Stangl, S.; Sobotka, M.; Bonet, J. A.; Vázquez, M.;
   Hanslmeier, A.
2003AN....324..376S    Altcode:
  A time series of broadband images of a sunspot near the disk center
  was obtained simultaneously in two wavelength bands at 0.56 mu m and
  1.55 mu m at the German VTT on June 17, 1998. We computed intensity
  difference images of the best frame pairs which reveal information
  about the facular distribution in the present field of view. Faculae
  are found around pores, in the quiet granulation and as well around
  the sunspot penumbra.

---------------------------------------------------------
Title: A CCD-based guiding and control system for solar telescopes
Authors: Klvaňa, M.; Bumba, V.; Sobotka, M.
2003AN....324..305K    Altcode:
  We describe a system for guiding and control of motion of solar
  telescopes based on a determination of the position of the full solar
  disk on a CCD chip. The system computes the position of the disk center
  and, according to the difference between the instantaneous and required
  positions, it controls the motion of the telescope to compensate the
  deviation. The instantaneous position of the disk center is the basic
  input for the telescope's guiding and coordinate system. Brightness
  inhomogeneities of the solar limb caused by clouds are checked in real
  time. The function of the system can be suspended automatically if the
  clouds degrade the accuracy of guiding. The system also makes possible
  to check the correct focus and to evaluate the image quality.

---------------------------------------------------------
Title: System of coordinates for solar telescopes
Authors: Klvaňa, M.; Bumba, V.; Sobotka, M.
2003HvaOB..27..205K    Altcode:
  A system of coordinates for a solar telescope, based on the principle of
  the CCD detection of the whole solar disk position, is described. The
  system evaluates the position of the solar disk center and from this
  position it calculates the coordinates of a point situated on the
  optical axis of the telescope. The method of cloudiness testing,
  as well as results of tests made, and algorithms for the coordinate
  calculation in six coordinate systems are demonstrated. The function of
  the system can be suspended automatically if the clouds would degrade
  the accuracy of guiding.

---------------------------------------------------------
Title: Centre-to-limb variation of solar granulation in the infrared
Authors: Sánchez Cuberes, M.; Vázquez, M.; Bonet, J. A.; Sobotka, M.
2003A&A...397.1075S    Altcode:
  Broad-band images have been obtained at the extremes of the continuum
  absorption coefficient of the solar atmosphere, at lambda 0.8 mu m
  and lambda 1.55 mu m. Quiet regions have been observed for different
  heliocentric angles. The centre-to-limb variation of granulation
  contrast has been computed in both wavelength ranges and a steeper
  decrease in the contrast is obtained for lambda 0.8 mu m than for
  lambda 1.55 mu m. For positions near the solar limb the granulation
  contrast shows a tendency to increase at both wavelengths. Mean
  granular sizes vary from 1.25 arcsec<SUP>2</SUP> at the disc centre
  to 2 arcsec<SUP>2</SUP> at mu =0.6 in the lambda 0.8 mu m images and
  from 1.24 arcsec<SUP>2</SUP> to 1.85 arcsec<SUP>2</SUP> at lambda
  1.55 mu m. Observations close to the limb detect granular structures
  of 0.\arcsec 96 or even smaller at a distance from the limb of d=
  0.\arcsec 32, equal to the diffraction limit of the telescope at
  lambda 8000 Å. Using an Eddington-Barbier approximation this implies a
  penetration of the temperature fluctuations associated with granulation
  up to approximately z ~ 220 km, although the calculation of response
  functions defines a broader interval.

---------------------------------------------------------
Title: Solar activity II: Sunspots and pores
Authors: Sobotka, M.
2003AN....324..369S    Altcode:
  Sunspots and pores appear as a consequence of interactions
  between strong magnetic fields and moving plasma. A wide variety of
  small-scale features, presumably of convective origin, are observed in
  photospheric layers of sunspots and pores: Umbral dots, light bridges,
  penumbral filaments, and penumbral grains. Each type of features
  has specific morphological, photometric, spectral, and kinematic
  characteristics. Spots and pores modify velocity fields in adjacent
  photosphere and sub-photospheric layers. Recent high-resolution
  spectral, broad-band, and helioseismic observations of the structure,
  dynamics, and magnetic fields of sunspots and pores, together with
  theoretical interpretations, are discussed in this review.

---------------------------------------------------------
Title: Infrared photometric results of a sunspot
Authors: Stangl, S.; Hanslmeier, A.; Sobotka, M.; Bonet, J. A.;
   Vázquez, M.
2002ESASP.506..473S    Altcode: 2002ESPM...10..473S; 2002svco.conf..473S
  We obtained simultaneously recorded time series of broadband
  images of a sunspot close to the disk center at the German Vacuum
  Tower Telescope, Tenerife, in two wavelength bands at 0.56 μm and
  1.55 μm. Maps of brightness difference images T<SUB>b</SUB>(1.55
  μm) and T<SUB>b</SUB>(0.56 μm) were computed for the best image
  pairs. Furthermore, a scatter plot of the brightness temperatures
  was made where five different magnetic and nonmagnetic regions -
  quiet region (QR), faculae, pores, penumbra, and umbra - in the
  field of view can be clearly distinguished. Pores as well as the
  penumbra are surrounded by the facular regions consisting of several
  single facular elements. However, facular regions are also found in
  non-magnetic vicinity.

---------------------------------------------------------
Title: Photospheric layers of sunspots and pores
Authors: Sobotka, Michal
2002ESASP.506..381S    Altcode: 2002svco.conf..381S; 2002ESPM...10..381S
  Sunspots and pores appear as a consequence of interactions between
  strong magnetic fields and moving plasma. A wide variety of small-scale
  features, presumably of convective origin, are observed in photospheric
  layers of sunspots and pores: Umbral dots, light bridges, penumbral
  filaments, and penumbral grains. Each type of features has specific
  morphological, photometric, spectral, and kinematic characteristics
  due to a broad range of magnetic field strengths and inclinations in
  umbrae and penumbrae. Spots and pores modify velocity fields in adjacent
  photosphere and subphotospheric layers. Recent high-resolution spectral,
  broad-band, and helioseismic observations of the structrure, dynamics,
  and magnetic fields of sunspots and pores, together with theoretical
  interpretations, are discussed in this review.

---------------------------------------------------------
Title: Evolution of small-scale structures in and around a large
    solar pore
Authors: Dorotovič, I.; Sobotka, M.; Brandt, P. N.; Simon, G. W.
2002ESASP.506..435D    Altcode: 2002ESPM...10..435D; 2002svco.conf..435D
  The analysis of an 11-hour series of high resolution white light
  observations of a large pore in the sunspot group NOAA 7519, observed
  on 5 June 1993 at the Swedish Vacuum Solar Telescope, La Palma, Canary
  Islands, is described. We used a total of 1782 frames, with average
  time interval of 22 s. Special attention was paid to the evolution of a
  filamentary region attached to the pore, to horizontal motions around
  the pore, and to small-scale morphological changes. The filamentary
  region was observed to change its structure back and forth between
  penumbra-like filaments and elongated granules. A clockwise rotation of
  this region around the center of the pore was detected during the whole
  observing period. This rotation had angular velocities decreasing with
  time from 7.6°h<SUP>-1</SUP> to 2.7%deg;h<SUP>-1</SUP>. Motions inside
  the filamentary region and around the pore, inclduding penetrations
  of photospheric granules into the pore, were studied in detail using
  local correlation and feature tracking algorithms. It was found that
  the observed filamentary region, although having some typical penumbral
  features, was different from a normal penumbra.

---------------------------------------------------------
Title: Properties of horizontal flows inside and outside a solar pore
Authors: Roudier, Th.; Bonet, J. A.; Sobotka, M.
2002A&A...395..249R    Altcode:
  Horizontal velocities and their temporal variations inside a large pore
  and in the surrounding granulation are studied from a 73 min sequence
  of white light frames, acquired at the Swedish Vacuum Solar Telescope
  (La Palma). The local correlation tracking technique with high spatial
  (0\farcs 31) and temporal (5 min) resolution was applied to binarized
  images, yielding 14 independent velocity maps. A ring of divergence
  centres around the pore was observed in all the maps. Motions directed
  into the pore, deposited by the divergence centres, continue also within
  the pore but with magnitudes smaller by factor of 2-3. A link between
  the variations of large velocity amplitudes around the pore and the
  brightness fluctuations of umbral dots is suggested. A phase delay
  between velocity and intensity changes at the periphery of the pore,
  probably related to the penetration of bright features inwards across
  the pore's border, was observed.

---------------------------------------------------------
Title: Evolution of small-scale features at the penumbra-photosphere
    border
Authors: Sobotka, M.; Muller, R.; Bonet, J. A.; Márquez, I.
2002ESASP.505..579S    Altcode: 2002IAUCo.188..579S; 2002solm.conf..579S
  Time series of images of a sunspot, acquired simultaneously
  in blue light and in G-band at the SVST, La Palma, are used to
  study horizontal motions of granules in the vicinity of the spot
  and evolution of penumbral grains (PGs) near the outer penumbral
  border. Local correlation tracking and feature tracking algorithms
  have been utilized for this purpose. Around sunspots and pores we
  can observe numerous centers of diverging local horizontal motions,
  caused mostly by exploding granules. Around developed spots we find an
  organized motion directed out from the penumbra. The divergence centers
  are carried away from the spot by this motion. In the outer penumbra,
  PGs move mostly outwards, toward the surrounding granulation. About 2/3
  of PGs disappear near the penumbra-granulation border. The remaining
  PGs move across the border, they transform either to granules or to
  small bright features, and continue moving away from the sunspot.

---------------------------------------------------------
Title: Evolution and motions of small-scale photospheric structures
    near a large solar pore
Authors: Dorotovič, I.; Sobotka, M.; Brandt, P. N.; Simon, G. W.
2002A&A...387..665D    Altcode:
  The analysis of an 11-hour series of high resolution white light
  observations of a large pore in the sunspot group NOAA 7519, observed
  on 5 June 1993 at the Swedish Vacuum Solar Telescope, La Palma, Canary
  Islands, is described. We used a total of 1782 frames, with average
  time interval of 22 s. Special attention was paid to the evolution of a
  filamentary region attached to the pore, to horizontal motions around
  the pore, and to small-scale morphological changes. The filamentary
  region was observed to change its structure back and forth between
  penumbra-like filaments and elongated granules. A clockwise rotation
  of this region around the center of the pore was detected during the
  whole observing period. This rotation had angular velocities decreasing
  with time from 7.6<SUP>deg</SUP> h<SUP>-1</SUP> to 2.7<SUP>deg</SUP>
  h<SUP>-1</SUP>. Motions inside the filamentary region and around the
  pore, including penetrations of photospheric granules into the pore,
  were studied in detail using local correlation and feature tracking
  algorithms. It was found that the observed filamentary region,
  although having some typical penumbral features, was different from
  a normal penumbra.

---------------------------------------------------------
Title: Infrared Photometry of Solar Photospheric
    Structures. II. Center-to-Limb Variation of Active Regions
Authors: Sánchez Cuberes, M.; Vázquez, M.; Bonet, J. A.; Sobotka, M.
2002ApJ...570..886S    Altcode:
  Simultaneous broadband single images and time series of images have
  been obtained at λ0.8 and λ1.55 μm, which are at the extremes of
  the continuum absorption coefficient of the solar atmosphere. Active
  regions have been observed for different heliocentric angles. Weighted
  difference images between the two wavelength bands have been used
  to identify faculae. Center-to-limb variations of facular relative
  intensity distribution, facular size distribution, and facular
  size-intensity relations have been obtained. At the spatial resolution
  of the observations, faculae show no contrast at the disk center
  at λ0.8 μm, while dark faculae are observed at λ1.55 μm. The
  transition from dark to bright faculae occurs between μ=0.6 and
  0.5 in λ1.55 μm images. The maximum of the mean facular relative
  intensity is found at μ=0.3 for both wavelengths. However, the peak
  of the facular relative intensity is greater and appears closer to
  the limb the larger the faculae are. Brightness temperature maps
  have been computed for the best pairs of images, and temperature
  difference images have been derived. The temperature difference
  T<SUB>b</SUB>(1.55μm)-T<SUB>b</SUB>(0.8μm) in pores is larger than
  that in the quiet photosphere at the disk center, but smaller near
  the limb. Faculae show smaller temperature differences than the quiet
  photosphere at the disk center, but the temperature differences near
  the limb are almost equal. Pores are surrounded by ringlike structures
  of low temperature difference at the disk center. Near the limb these
  ringlike structures appear bright in the brightness temperature maps and
  show a temperature difference similar to that of the quiet photosphere.

---------------------------------------------------------
Title: Evolution of Filamentary Structures in and around a Large
    Solar Pore
Authors: Simon, G. W.; Dorotovič, I.; Sobotka, M.; Brandt, P. N.
2002AAS...200.3803S    Altcode: 2002BAAS...34..698S
  We have studied evolution of a filamentary region attached to a pore,
  horizontal motions around the pore, and small-scale morphological
  changes, using an 11-hour series of 1782 high resolution white-light
  images of a large pore in the sunspot group NOAA 7519, acquired on
  5 June 1993 at the Swedish Vacuum Solar Telescope, La Palma, Canary
  Islands. We find that the structure of the region between the large pore
  and an adjacent micropore was not always filamentary, but varied back
  and forth in time between a filamentary structure and a granular one. A
  clockwise rotation, at times exceeding 7 deg/h, of this filamentary
  region around the center of the pore, was observed during the whole
  run. Motions of fine structure around and within the pore were studied
  in detail using local correlation and feature tracking. We conclude
  that the filamentary region, while it had some typical penumbral
  characteristics, was different from a normal penumbra. This research has
  been funded by the USAF Research Lab, and by Emeritus Research Services.

---------------------------------------------------------
Title: Fine structure and dynamics in a light bridge inside a
    solar pore
Authors: Hirzberger, J.; Bonet, J. A.; Sobotka, M.; Vázquez, M.;
   Hanslmeier, A.
2002A&A...383..275H    Altcode:
  A photometric analysis of the sub-structure of a granular light
  bridge in a large solar pore is performed. The data consist of a
  66 min time series of white light images (lambda = 5425 Å,+/- 50
  Å) of an active region NOAA 7886 obtained at the Swedish Vacuum
  Solar Telescope on La Palma, Canary Islands. The light bridge can
  be resolved into an assembly of small grains embedded in a diffuse
  background with an intensity of about 85% of the mean photospheric
  intensity (I<SUB>phot</SUB>). Following the temporal evolution of these
  sub-structures in their irregular motions inside the light bridge,
  proper motions with velocities up to 1.5 km s<SUP>-1</SUP> can be
  detected. Their lifetime distribution shows a maximum at 5 min and a
  second peak at approximately 20 min. The origin and the decay of these
  sub-structures is very similar to those of granules, i.e. fragmentation,
  merging and spontaneous origination from, and dissolution into, the
  background can be observed. Some of them are able to escape from the
  light bridge into the umbra where they cannot be distinguished from
  adjacent umbral dots. Generally, this study presents evidence that
  the observed phenomenon represents convective motions.

---------------------------------------------------------
Title: Fine structure in sunspots. IV. Penumbral grains in speckle
    reconstructed images
Authors: Sobotka, M.; Sütterlin, P.
2001A&A...380..714S    Altcode:
  The properties of penumbral grains (PGs) in a large regular sunspot
  are studied from a 70 min sequence of G-band images acquired on 20
  September 1999 at the Dutch Open Telescope, La Palma. The frames were
  processed using the speckle masking algorithm, resulting in an almost
  diffraction-limited time series (30 s cadence), basically free of
  atmospheric distortions. Applying feature tracking to a movie of 140
  frames yields proper motions, intensities, and lifetimes for a set of
  1058 PGs with lifetimes longer than 10 min. About 54% of the PGs move
  toward the umbra and 46% toward the photosphere. The inward-moving
  PGs are located mostly in the inner penumbra (up to 0.6 of the
  distance from the umbra to the photosphere). Their average lifetime
  and median speed are 50 min and 0.52 km s<SUP>-1</SUP>. Most of the
  outward-moving PGs are observed in the outer penumbra and their average
  lifetime and median speed are 31 min and 0.75 km s<SUP>-1</SUP>. These
  measurements confirm the previous results published by Sobotka et
  al. (\cite{sobotka99_AA348}).

---------------------------------------------------------
Title: Reconstruction of the HSFA telescopes
Authors: Klvaňa, M.; Kotrč, P.; Knížek, M.; Sobotka, M.; Heinze, P.
2001AN....322..371K    Altcode:
  At present, two large horizontal solar telescopes with spectrographs,
  located at the Ondřejov Observatory, are undergoing an important
  reconstruction. The original designation of these two identical
  instruments will mostly be preserved. The telescope/spectrograph
  HSFA1 will continue to be used for the measurement of solar magnetic
  and velocity fields, while HSFA2 is in the process of rebuilding to a
  multichannel spectrograph equipped with CCD cameras. The reconstruction
  of the electronic control systems is the most important item. The
  up-to-date electronic equipment will enable a remote control of all
  functions of the instruments, will offer a large amount of automated
  procedures and should resist to disturbances caused by atmospheric
  electricity. The whole telescope/spectrograph control system is designed
  to reduce and simplify the observer's work as much as possible.

---------------------------------------------------------
Title: A close look at sunspots
Authors: Sobotka, Michal
2001ESASP.493..361S    Altcode: 2001sefs.work..361S
  No abstract at ADS

---------------------------------------------------------
Title: Reconstruction of the Telescopes HSFA1 and HSFA2
Authors: Klvaňa, M.; Sobotka, M.; Bumba, V.
2001AGM....18S1002K    Altcode:
  At present, two large horizontal solar telescopes with spectrographs,
  located at the Ondřejov Observatory, are undergoing an important
  reconstruction. The original designation of these two identical
  instruments will mostly be preserved. The telescope/spectrograph
  HSFA1 will continue to be used for the measurement of solar magnetic
  and velocity fields, while HSFA2 is in the process of rebuilding to a
  multichannel spectrograph equipped with CCD cameras. The reconstruction
  of the electronic control systems of both telescopes is the most
  important item. The up-to-date electronic equipment will enable a remote
  control of all functions of the instruments, will offer a large amount
  of automated procedures and should be resistent to the disturbances
  caused by atmospheric electricity. The whole telescope/spectrograph
  control system is designed to reduce and simplify the observer's work as
  much as possible. In this contribution we describe the characteristics
  of both reconstructed instruments and the basics of their control.

---------------------------------------------------------
Title: Reconstruction of the Telescopes HSFA1 and HSFA2
Authors: Klvaňa, M.; Sobotka, M.; Bumba, V.
2001AGM....18.P220K    Altcode:
  At present, two large horizontal solar telescopes with spectrographs,
  located at the Ondřejov Observatory, are undergoing an important
  reconstruction. The original designation of these two identical
  instruments will mostly be preserved. The telescope/spectrograph
  HSFA1 will continue to be used for the measurement of solar magnetic
  and velocity fields, while HSFA2 is in the process of rebuilding to a
  multichannel spectrograph equipped with CCD cameras. The reconstruction
  of the electronic control systems of both telescopes is the most
  important item. The up-to-date electronic equipment will enable a remote
  control of all functions of the instruments, will offer a large amount
  of automated procedures and should be resistent to the disturbances
  caused by atmospheric electricity. The whole telescope/spectrograph
  control system is designed to reduce and simplify the observer's work as
  much as possible. In this contribution we describe the characteristics
  of both reconstructed instruments and the basics of their control.

---------------------------------------------------------
Title: Infrared Photometry of Solar Photospheric Structures. I. Active
    Regions at the Center of the Disk
Authors: Sobotka, M.; Vázquez, M.; Sánchez Cuberes, M.; Bonet,
   J. A.; Hanslmeier, A.
2000ApJ...544.1155S    Altcode:
  Simultaneous time series of broadband images of two active regions
  close to the disk center were acquired at the Swedish Vacuum
  Solar Telescope, La Palma, in the infrared bands at 1.55 and 0.80
  μm, corresponding to the minimum and maximum continuum opacities,
  respectively. Dark faculae are detected in images obtained as weighted
  intensity differences between both wavelength bands. Maps of brightness
  temperatures T<SUB>b</SUB> (1.55 μm) and T<SUB>b</SUB> (0.80 μm)
  were computed for the best pairs of images. In the scatter plots
  T<SUB>b</SUB> (1.55) versus T<SUB>b</SUB> (0.80), the elements of
  quiet regions can be clearly distinguished from those of faculae and
  pores, while the transition between faculae and pores is smooth. The
  temperature difference T<SUB>b</SUB>(1.55)-T<SUB>b</SUB>(0.80) in
  faculae is lower than that in the quiet photosphere but increases with
  decreasing T<SUB>b</SUB> and is higher inside pores. Most of the pores
  are surrounded by ringlike regions of low temperature difference. The
  minimum intensity of pores at both wavelengths decreases with increasing
  diameter. Maps of horizontal motions of dark faculae and pores were
  derived from time series of intensity-difference images, using the
  local correlation tracking technique. Velocities corresponding to
  large-scale separation of polarities, an emergence of magnetic flux,
  twist and contraction related to a pore formation, shear motions,
  and a twist in dark faculae were measured.

---------------------------------------------------------
Title: Power-law spectra of 1-2 GHz narrowband dm-spikes
Authors: Karlický, Marian; Jiřička, Karel; Sobotka, Michal
2000SoPh..195..165K    Altcode:
  Twelve examples of clouds of narrowband dm-spikes, observed by the
  Ondřejov radiospectrograph in the 1-2 GHz frequency range, are
  analyzed. After transforming of the frequency scales to heights in
  the solar atmosphere, the indices of the power-law power spectra are
  determined. The derived power-law indices are scattered in a broad
  range of values (−0.80-−2.85). In some cases they considerably
  deviate from the previously found value of −5/3. A change of the
  power-law index above log k≈2.5 was also found in some cases. In the
  two longest events the time evolution of their power spectra as well as
  their indices were studied. While in most parts of the radio spectra
  the spectral index remains constant, in one part its absolute value
  increases with the spike intensity increase. Finally, the results,
  especially the broad range of power-law indices, are briefly discussed.

---------------------------------------------------------
Title: Infrared Photometry of Solar Active Regions
Authors: Sobotka, M.; Vázquez, M.; Cuberes, M. S.; Bonet, J. A.;
   Hanslmeier, P.
2000JApA...21..289S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Coordinated MDI/TRACE/SVST Observations of Sunspots
Authors: Bush, R. I.; Shine, R. A.; Brandt, P.; Sobotka, M.;
   Scharmer, G.
2000SPD....31.0122B    Altcode: 2000BAAS...32R.804B
  During the first two weeks of June 1999, coordinated observations
  of sunspots were made by the MDI instrument on the SOHO spacecraft,
  the TRACE satellite and the Swedish Vacuum Solar Tower (SVST) at La
  Palma. The MDI instrument was operating in a "high resolution" mode
  and was obtaining 1.2 arc-second resolution magnetograms and 2.4
  arc-second resolution dopplergrams at a one minute cadence. TRACE
  observations were made in Fe IX/X 171 Angstroms and/or Fe XII 195
  Angstroms together with the 1600 Angstroms and continuum bands at a
  1.0 arc-second resolution. The SVST data consist of filtergrams taken
  with three 2Kx2K CCD cameras with about 0.4 arc-second resolution
  operating in frame selection mode. The first camera used a fixed G
  band (4305 Angstroms) filter, the second a fixed blue continuum filter
  (4507 Angstroms), and the third a narrow band tunable filter which was
  cycled through several positions in the Hα line and the 6302 Angstroms
  Fe ~I line. The goal of this investigation is to detail the evolution
  of stable sunspots in order to understand the detailed correlation of
  photospheric flows and magnetic features. The high time and spatial
  resolution of these measurements provides a unique opportunity to
  explore the interactions of plasma and magnetic field at the solar
  surface. This work was supported by NASA grant NAG5-3077 at Stanford
  and NASA contract NAS5-38099 at Lockheed Martin.

---------------------------------------------------------
Title: Interaction of Convective Structures with the Magnetic Field
    of Solar Pores
Authors: Sobotka, M.; Vázquez, M.; Bonet, J. A.; Hanslmeier, A.
1999ASPC..184...60S    Altcode:
  Time series of high-resolution white-light images of solar pores are
  analyzed. Granular motions in the vicinity of pores are driven by
  mesogranular flows: Motions toward the pore dominate in the 2 arcsec
  zone around the pore boundary, while at larger distances the granules
  move away from the pore. Triggered by these motions, small granules
  and granular fragments located close to the pore border penetrate into
  the pore, where they move inwards as short-lived bright features very
  similar to umbral dots. The formation of a transitory penumbra-like
  structure at the border of a large pore was observed simultaneously
  with a temporary reorganization of adjacent granular field to expanding
  elongated granules separated by dark filaments.

---------------------------------------------------------
Title: Fine structure in sunspots. III. Penumbral grains
Authors: Sobotka, M.; Brandt, P. N.; Simon, G. W.
1999A&A...348..621S    Altcode:
  The properties of penumbral grains (PGs) in a medium-size sunspot are
  studied from a 4.5 hour observation series acquired on 5 June 1993 at
  the Swedish Vacuum Solar Telescope, La Palma. The application of an
  image segmentation procedure and a feature tracking algorithm on a movie
  of 360 frames yields proper motions, intensities, and lifetimes for a
  set of 469 PGs. Almost 3/4 of the PGs move toward the umbra and more
  than 1/4 toward the photosphere. There appears to be a dividing line
  (DL) in the penumbra, approximately 0.7 of the distance from the umbra
  to the photosphere, such that most PGs outside this line move toward
  the photosphere, and those inside move toward the umbra. For inward
  moving PGs we find a typical proper motion speed of 0.4 km s(-1) and
  a median lifetime of 29 minutes, for outward moving ones 0.5 km s(-1)
  and 22 minutes. The average speed of inward moving PGs increases with
  distance from the umbra with a maximum near the DL. Outward moving
  PGs have maximum speed near the outer penumbral boundary. The measured
  instantaneous velocities of individual PGs show only partial agreement
  with theoretical model predictions. We find much shorter lifetimes than
  earlier authors, and no pronounced dependence of lifetime on position
  in the penumbra. We discuss possible reasons for the disagreement with
  previous results.

---------------------------------------------------------
Title: Fine Structure in Sunspots, III: Penumbral Grains
Authors: Simon, G. W.; Sobotka, M.; Brandt, P. B.
1999AAS...194.5908S    Altcode: 1999BAAS...31..919S
  The properties of penumbral grains (PGs) in a medium-size sunspot are
  studied from a 4.5 h observation series acquired on 1993 June 5 at the
  Swedish Vacuum Solar Telescope, La Palma. The application of an image
  segmentation procedure and a feature tracking algorithm on a movie of
  360 frames yields proper motions, intensities, and lifetimes for a set
  of 469 PGs. Almost 3/4 of the PGs move toward the umbra and more than
  1/4 toward the photosphere. There appears to be a dividing line (DL)
  in the penumbra, approximately 0.7 of the distance from the umbra to
  the photosphere, such that most PGs outside this line move toward the
  photosphere, and those inside move toward the umbra. For the inward
  moving PGs we find a typical proper motion speed of 0.4 km/s and a
  median lifetime of 29 minutes, for the outward moving ones 0.5 km/s
  and 22 minutes. The average speed of inward moving PGs increases with
  distance from the umbra and has a maximum near the DL. Outward moving
  PGs have maximum speed near the outer penumbral boundary. Instantaneous
  velocities of individual PGs were measured to compare them with
  theoretical model predictions. We find much shorter lifetimes than
  earlier authors, and no pronounced dependence of lifetime on position
  in the penumbra. We discuss possible reasons for the disagreement in
  results, and make some comments on the differences between human and
  computer selection and tracking of features.

---------------------------------------------------------
Title: Temporal Evolution of Fine Structures in and around Solar Pores
Authors: Sobotka, Michal; Vázquez, Manuel; Bonet, José Antonio;
   Hanslmeier, Arnold; Hirzberger, Johann
1999ApJ...511..436S    Altcode:
  Time series of high-resolution white-light images of six solar pores,
  observed in 1993 and 1995 at the Swedish Vacuum Solar Telescope (La
  Palma), are analyzed. The pores constitute an almost ideal laboratory
  in which to study the interaction of a vertical magnetic field with
  surrounding convective motions, without the perturbation of the inclined
  magnetic field in the penumbra. Umbral dots observed in a large (D=8.9")
  pore are similar to those in mature umbrae, but they live longer, are
  brighter, and have a higher filling factor. Granular motions in the
  vicinity of pores are driven by mesogranular flows. Motions toward the
  pore dominate in the 2" zone around the pore boundary, while at larger
  distances the granules move away from the pore. Pushed by these motions,
  small granules and granular fragments located close to the pore border
  sometimes penetrate into the pore, where they move inward as bright
  short-lived features very similar to umbral dots. The capture of bright
  features by the pore is probably a microscale manifestation of the
  “turbulent erosion,” which results in the decay of the pore. Formation
  of a transitory penumbra-like structure at the border of the large
  pore was observed simultaneously with the appearance of expanding
  elongated granules, separated by dark filaments, in an adjacent
  granular field. These effects can be interpreted as a consequence of
  emerging bipolar magnetic “loops” caused by a temporary protrusion
  of opposite magnetic polarity.

---------------------------------------------------------
Title: Granulation in active regions as compared to quiet regions
Authors: Hirzberger, J.; Bonet, J. A.; Vázquez, M.; Hanslmeier, A.;
   Sobotka, M.
1999AGAb...15...88H    Altcode: 1999AGM....15..P09H
  A comparative study of the statistical properties of granulation
  in active and quiet regions is performed. The analysis is based on a
  high-resolution time series of simultaneous white light (lambda5425 Å)
  and G-band (lambda 4308 Å) images obtained at the Swedish Vacuum Solar
  Telescope, La Palma, Canary Islands. The G-band images have been used
  to discern quiet and active regions in the field of view, whereas the
  white-light images were taken to analyze the photometry, size and time
  evolution of granules in regions of different magnetic activity. Power
  spectra confirm that the granular size decreases with increasing G-band
  brightness. Granules with diameters below 0”.8 are systematically
  brighter in the abnormal granulation than in quiet regions. These
  small and bright elements are embedded in a diffuse background of
  approximately mean photospheric brightness covering all the fields of
  abnormal granulation. The granular lifetime decreases with increasing
  G-band brighness. The conclusions about the behaviour of the granulation
  have been decontaminated of the influence of magnetic elements (the
  so-called Bright Points), that have been separated using criteria
  of size (d &lt; 0”.5) and lifetime (T &gt; 6 min). A significant
  fraction of them are concentrated in regions of high G-band activity,
  an emerging flux region, and the rest are m ainly aligned outlining a
  cellular pattern (the magnetic network formed by supergranular motions).

---------------------------------------------------------
Title: Fine Structures in Sunspots
Authors: Sobotka, M.
1999ASSL..239...71S    Altcode: 1999msa..proc...71S
  A review of the present knowledge on fine-scale features in sunspots
  at the photospheric level is given. The principal aim is to summarize
  and discuss the results of observations with high spatial resolution
  but also several important theoretical models are briefly described.

---------------------------------------------------------
Title: Lifetimes and motions of penumbral grains.
Authors: Sobotka, M.; Brandt, P. N.; Simon, G. W.
1999joso.proc...89S    Altcode:
  The properties of penumbral grains (PGs) are studied from a 4.5 hour
  sunspot series observed on June 5, 1993 at the Swedish Vacuum Solar
  Telescope, La Palma. The application of an image segmentation procedure
  yields a set of 605 penumbral grains which are investigated by a feature
  tracking algorithm. The authors find a dividing line between inward and
  outward moving PGs and give results on their lifetime and proper motion.

---------------------------------------------------------
Title: Lifetime of dark nuclei.
Authors: Stupka, M.; Sobotka, M.
1999joso.proc..114S    Altcode:
  Preliminary results about the lifetime of dark nuclei in the umbra
  of the leading spot NOAA 7882 are presented. From time-series of
  white-light images obtained at the Swedish Vacuum Tower Telescope,
  La Palma (on June 22 - 29, 1995), the authors estimated the
  lifetime of three dark nuclei of a relatively bright sunspot
  (J<SUB>min</SUB>/I<SUB>phot</SUB> = 0.30) to be in the range of 10 -
  30 hours.

---------------------------------------------------------
Title: Lifetimes and Motions of Penumbral Grains-Preliminary Results
Authors: Sobotka, M.; Brandt, P.; Simon, G.
1999ASPC..183..116S    Altcode: 1999hrsp.conf..116S
  No abstract at ADS

---------------------------------------------------------
Title: Fine structure in sunspots. I. Sizes and lifetimes of
    umbral dots
Authors: Sobotka, Michal; Brandt, Peter N.; Simon, George W.
1997A&A...328..682S    Altcode:
  The analysis of a 4 1/2 hour series of high resolution white light
  observations of the umbra in a medium-size sunspot (NOAA 7519, observed
  on 5 June 1993 at the Swedish Vacuum Solar Telescope, La Palma) is
  described. An automatic identification and tracking algorithm was
  applied to umbral dots (UDs) observed in a destretched movie of 360
  frames. In total, 662 UDs were tracked and their filling factor, sizes,
  and lifetimes were measured. It was found that large (diameter &gt;
  0farcs 4) and long-lived (lifetime &gt; 10 minutes) UDs appear mostly
  in regions with enhanced umbral diffuse background intensity. UDs
  do not have a “typical” size. Their number rapidly increases with
  decreasing diameter down to the resolution limit. Similarly, UDs do
  not have a “typical” lifetime, and their number rapidly increases
  with decreasing lifetime. UDs with lifetimes below 10 minutes represent
  about 2/3 of the population; the median lifetime is 5.9 minutes.

---------------------------------------------------------
Title: Fine structure in sunspots. II. Intensity variations and
    proper motions of umbral dots
Authors: Sobotka, Michal; Brandt, Peter N.; Simon, George W.
1997A&A...328..689S    Altcode:
  Temporal intensity variations of umbral dots (UDs) and dark nuclei
  (DNs), and proper motions of UDs, were analyzed in a 4 1/2 hour
  time series of high resolution white light images of the umbra in a
  medium-size sunspot (NOAA 7519). The observations were made on 5 June
  1993 at the Swedish Vacuum Solar Telescope, La Palma. An identification
  and tracking algorithm was applied to UDs observed in a destretched
  movie of 360 frames. In total, 662 UDs were tracked, and their
  intensities, positions, and proper motions were measured. Power
  spectra of temporal intensity variations of UDs and DNs were
  computed, and several typical periods were found. The histogram of
  time-averaged intensities of UDs has two maxima; the UDs belonging to
  the brighter part of the population are located mostly at or near the
  umbral-penumbral boundary. The number of UDs decreases with increasing
  magnitude of the proper motion velocity. Speeds of UDs are grouped
  at 100 and 400 m/s. The observed spatial distribution of UDs with
  different proper motion velocities is found to be in contradiction to
  the generally accepted idea of moving “peripheral” and stationary
  “central” UDs. Both “fast” and “slow” UDs are present in all
  parts of the umbra. Thus velocity does not appear to be a good criterion
  for separating UDs into “peripheral” and “central” ones.

---------------------------------------------------------
Title: Time Series of Solar Granulation Images. I. Differences
    between Small and Large Granules in Quiet Regions
Authors: Hirzberger, J.; Vázquez, M.; Bonet, J. A.; Hanslmeier, A.;
   Sobotka, M.
1997ApJ...480..406H    Altcode:
  A 90 minute time series of high spatial resolution white-light images
  of solar granulation, obtained at the Swedish Vacuum Solar Tower
  (Observatorio del Roque de los Muchachos, La Palma), was analyzed
  to study how the physical properties of the granules changed with
  size. The observational material was corrected for global motions and
  for the instrumental profile, and a subsonic filter was applied. A
  definition of granular border was adopted using the inflection points
  of the intensity of the images, and the granular cells were defined
  as areas including, in addition to the granules, one-half of their
  surrounding intergranular lanes. Using time series to investigate the
  average behavior of solar granulation has three strong advantages:
  the first is the possibility of removing the acoustic waves; second,
  the possibility of estimating the effect of the variability of
  seeing on our results; and, third, the opportunity to attain high
  statistical significance in the analysis as a result of the large
  number of extracted granules (61,138). <P />It is shown that the
  granules of the sample can be classified according to their mean
  and maximum intensities and their fractal dimension into two regimes,
  with diameters smaller than and larger than 1.4", respectively. A broad
  transition region in which both regimes coexist was found. The resolved
  internal brightness structure of both the granules and the intergranular
  lanes shows a linear increase of the number of substructures with the
  granular and intergranular areas. The diameters of these substructures
  range between our effective resolution limit (~0.3") and ~1.5",
  with preferential sizes at 0.65" and 0.55", respectively. Moreover,
  it seems that large and small granules are unevenly distributed with
  respect to the large-scale vertical flows. Thus smaller granules are
  more concentrated along downdrafts whereas larger ones preferentially
  occupy the updrafts. Finally, a physical scenario compatible with the
  existence of these two granular populations is discussed.

---------------------------------------------------------
Title: Sunspots Seen at High Spatial Resolution
Authors: Sobotka, M.
1997ASPC..118..155S    Altcode: 1997fasp.conf..155S
  Sunspots, if observed at high spatial resolution, display a complicated
  pattern of fine structures, both in the penumbra (bright and dark
  filaments, penumbral grains, dark cloud-like features) and in the
  umbra (umbral dots, light bridges, dark nuclei, embedded in a diffuse
  background). This review describes recent results of observations of
  those fine-structure elements at the photospheric level. We discuss
  the morphology, magnetic field, proper motions, and Doppler velocities
  in sunspot penumbrae. We present the morphological classification
  of light bridges and summarize the data about their evolution and
  relations to other fine-structure elements, about the magnetic
  field, and the results of an analysis of the internal structure of
  strong granular light bridges. We review the present knowledge about
  the general photometric characteristics and structure of sunspot
  umbrae, dark nuclei, and umbral dots (brightness, size, lifetimes,
  spatial distribution, proper motions, Doppler velocities, and magnetic
  field). We also present original results, based on an exceptional 4.5
  hour time-series of high-resolution images. Finally, we discuss some
  interesting similarities and relations between the fine-structure
  elements in different magnetic regions (umbrae, penumbrae, pores and
  light bridges).

---------------------------------------------------------
Title: Fine structure in sunspots: sizes, lifetimes, motions, and
    temporal variations.
Authors: Sobotka, M.; Brandt, P. N.; Simon, G. W.
1997joso.proc...84S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Narrowband dm-Spikes in the 2 GHz Frequency Range and MHD
    Cascading Waves in Reconnection Outflows
Authors: Karlický, Marian; Sobotka, Michal; Jiřička, Karel
1996SoPh..168..375K    Altcode:
  Two examples of clouds of narrowband dm-spikes, observed by the
  Ondřejov radiospectrograph in the 1-2 GHz frequency range, are
  analyzed. After transformation of the frequency scales to distances in
  the solar atmosphere, the power spectra analysis of size scales reveals
  a spectral index of −5/3, resembling that of Kolmogorov spectra of
  turbulent cascades. The narrowband dm-spikes are interpreted as radio
  emission from electrons accelerated in MHD cascading waves, probably
  generated in plasma outflows from magnetic field reconnection.

---------------------------------------------------------
Title: Time evolution of solar granulation phenomena.
Authors: Hirzberger, J.; Bonet, J. A.; Hanslmeier, A.; Vázquez, M.;
   Sobotka, M.
1996AGAb...12..160H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Temporal evolution of fine-structures in sunspots.
Authors: Sobotka, M.; Brandt, P. N.; Simon, G. W.
1996joso.proc..145S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: On the Dynamics of Bright Features in Sunspot Umbrae
Authors: Sobotka, Michal; Bonet, Jose A.; Vazquez, Manuel; Hanslmeier,
   Arnold
1995ApJ...447L.133S    Altcode:
  Time series of white-light pictures of the sunspot NOAA 7522, obtained
  at the Swedish Vacuum Solar Telescope (La Palma), were analyzed
  to study the proper motion of bright features in sunspots. For the
  first time, its relation with the dark nuclei present in the umbra is
  investigated. The bright features are visible in the penumbra as bright
  grains moving into the umbra. A few of them cross the penumbra/umbra
  boundary, becoming peripheral umbral dots, which move farther into
  the umbra until they meet dark nuclei, braking their motion and
  disappearing. In some cases the encounter with a dark nucleus produces
  a brightening of the central umbral dots placed on the opposite side
  of the nucleus. A similar phenomenon is observed in the grains of a
  faint light bridge, when bright penumbral grains collide with one of
  the edges of the bridge.

---------------------------------------------------------
Title: Photometry of sunspot pores from partial eclipse observations.
Authors: Bonet, J. A.; Sobotka, M.; Vazquez, M.
1995A&A...296..241B    Altcode:
  White-light images, centered at λ6708A, were obtained at the Swedish
  Solar Telescope, La Palma, on occasion of the 1994 May 10 partial solar
  eclipse. From the recorded information, 5 frames showing several pores
  together with the moon's limb were selected for detailed photometric
  analysis. The observed intensity profile of the moon's limb projected
  against the solar disk was used to derive, from each frame, the
  Point Spread Function of the atmosphere + instrument to restore the
  images. The characteristics of the obtained PSFs -low noise and precise
  determination of the wings far away from the core- enabled us to avoid
  arbitrary assumptions about analytical approximations. The FWHM of these
  functions was typically 0.47". Several bright features were identified
  in one of the pores. After determining the photometric parameters of
  these fine umbral structures their link with the population of the
  bright features in the umbra of evolved spots is discussed in the
  framework of the dependence of sunspot properties on the spot size.

---------------------------------------------------------
Title: A High-Resolution Study of the Structure of Sunspot Light
    Bridges and Abnormal Granulation
Authors: Sobotka, Michal; Bonet, Jose A.; Vazquez, Manuel
1994ApJ...426..404S    Altcode:
  Strong light bridges (SLBs) represent an abrupt change in the physical
  conditions of sunspot umbrae. They divide the umbra into separate units
  (fragments, umbral cores) and very often show a granular structure. A
  photometric and spectroscopic study of SLBs, and also of abnormal
  granulation (AG) in a region of pores, is presented. Slit-jaw images
  (bandpass 5425 +/- 50 A) and spectra (line Fe I 5434.5 A), with a
  spatial resolution of 0.3 sec, were acquired during the period 1991 July
  1-10 at the Swedish Solar Telescope at the Observatorio del Roque de
  los Muchachos (La Palma). The power spectra of intensity fluctuations
  in the slit-jaw images, were used as the primary diagnostic tool,
  complemented by the analysis of line profiles. The following results
  were obtained. 1. The structures present in SLBs and AG are generally
  smaller than the granules in the quiet photosphere. The typical size
  of SLB granules is 1.2 sec (in quiet granulation, 1.5 sec). In AG, the
  distribution of power is more complex and is characterized by peaks
  corresponding to scales of 2.5 sec, 1.3 sec, and 0.64 sec. 2. SLB
  and AG power spectra show an excess of power (compared to quiet
  granulation) at scales of 0.5 sec. This power enhancement reflects
  the presence of small bright grains, clearly visible in SLBs and AG,
  with a mean nearest neighbor distance of 0.5 sec. 3. Two of these small
  bright grains, together with a dark lane between them, were resolved
  spectroscopically in a SLB. The line shifts and bisector shapes suggest
  a convective origin of these structures. 4. The SLB power spectra in
  the log P/log k scale indicate the presence of a Kolmogorov turbulent
  cascade in the structures between 1.7 sec and 0.64 sec. However, the
  small bright grains do not pertain to the turbulent cascade. They
  are particular phenomena, probably with a convective origin. The
  power spectrum of AG does not give any indication of the presence of
  a turbulent cascade. 5. Small bright features (umbral dots or bright
  grains) can be found in unbral cores, light bridges, and AG regions as
  well. &lt;Their mean nearest neighbor distance, in the observed areas,
  decreases with increasing brightness and decreasing magnetic field
  strength. &amp;We thus propose that they are a manifestation of altered
  convection, which is modulated and maintained by the magnetic field.

---------------------------------------------------------
Title: Processing of Images Acquired at the Ondřejov Double Solar
    Refractor
Authors: Klvaňa, M.; Bumba, V.; Sobotka, M.
1994ESOC...50..179K    Altcode: 1994hadg.conf..179K
  No abstract at ADS

---------------------------------------------------------
Title: Strong light bridges and abnormal granulation
Authors: Sobotka, M.; Bonet, J. A.; Vázquez, M.
1994smf..conf..197S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: A High-Resolution Study of Inhomogeneities in Sunspot Umbrae
Authors: Sobotka, Michal; Bonet, Jose A.; Vazquez, Manuel
1993ApJ...415..832S    Altcode:
  A detailed study of the brightness, size, spatial distribution,
  and filling factor of the different umbral inhomogeneities is
  presented. Many sunspots show multiple umbrae (separated by strong
  light bridges, SLBs), which behave like independent units. These are
  termed umbral cores (UCs). From the phenomenological point of view, UCs
  show two components: (1) a dark area, formed by a diffuse background
  (DB), with local intensity minima called dark nuclei (DNs), and (2)
  bright features including umbral dots (UDs) and faint light bridges
  (FLBs). <P />Slit-jaw images (bandpass 5425±50 Å) and spectra
  (line Fe I 5434.5 Å) of seven sunspots with 13 separate UCs were
  acquired using the Swedish Solar Telescope at the Observatorio
  del Roque de los Muchachos (La Palma) with a spatial resolution of
  0".3. Image restoration and inversion of the spectral line profile
  were applied, with the following results: <P />The most important
  photometric parameter of the UCs is the mean intensity of their DB
  (mean background intensity ‾I<SUB>back</SUB>). It is well correlated
  to the intensity minimum of the diffuse background and to the mean
  brightness of UDs. The relation between the size of the UCs and their
  ‾I<SUB>back</SUB> is not straightforward, but UCs with radii &lt;5"
  are in general brighter than the larger ones. The differences in the
  brightness of individual umbrae can be explained mainly by variations
  of ‾I<SUB>back</SUB> rather than in terms of variations of UD filling
  factor. <P />The linear relation between the peak intensity of UDs
  and the intensity of the adjacent DB (local background intensity)
  was confirmed in a sample of more than 1500 elements, and the
  "true" peak-to-background ratio was estimated as 3. <P />The spatial
  distribution of UDs is nonuniform. In DNs (whose size is comparable to
  that of photospheric granules) UDs appear very rarely; they prefer to
  form clusters and alignments outside the DNs. The mean nearest neighbor
  distance decreases, and the density of UDs increases with increasing
  ‾I<SUB>back</SUB>. The filling factor of UDs is in the range 3%-10%,
  and the size of UDs is similar in all UCs. The typical "true" size is
  180-300 km, and it is uncorrelated to the peak brightness of UDs. <P
  />FLBs are composed of bright grains and dark spaces between them. The
  bright grains are darker than photospheric granules. The size of the
  bright grains is similar to that of UDs, and their relative area in
  FLBs is very close to the fractional area granulum-intergranulum in the
  quiet photosphere. <P />On the basis of the obtained spectral profiles,
  working models of temperature stratification are presented for UDs,
  their adjacent DB, and DNs. <P />On the basis of observational facts
  the following is proposed: UDs and FLBs are probably demonstrations
  of some kind of altered convection, with a cell size of about 0".5,
  modulated by a smoothly varying magnetic field.

---------------------------------------------------------
Title: High Resolution Observations of Umbral Fine Structure
Authors: Sobotka, M.; Bonet, J. A.; Vazquez, M.
1993ASPC...46...20S    Altcode: 1993mvfs.conf...20S; 1993IAUCo.141...20S
  No abstract at ADS

---------------------------------------------------------
Title: Spectroscopic determination of intensities of umbral bright
    features and adjacent background
Authors: Sobotka, M.; Bonet, J. A.; Vazquez, M.
1992A&A...260..437S    Altcode:
  Profiles of the Na I D doublet in three bright features (clusters
  of umbral dots), located in a relatively dark umbra, were analyzed
  by means of the 'local two-component modeling' to obtain the 'true'
  continuum intensities and temperatures of the bright features and
  their dark surroundings (background). The intensities of two central
  and one peripheral bright feature were 0.31 (background 0.11), 0.33
  (0.13), and 0.40 (0.17), respectively. For the ratio of the object and
  background intensity (assumed to be constant, but unknown until now)
  the value of 2.6 +/- 0.2 was obtained.

---------------------------------------------------------
Title: On the relation between the intensities of bright features
    and the local background in sunspot umbrae
Authors: Sobotka, M.; Bonet, J. A.; Vazquez, M.
1992A&A...257..757S    Altcode:
  A photometric study of umbral bright features (umbral dots, clusters
  of umbral dots, bright grains of light bridges) in sunspots is
  presented. It is based on white-light images taken with a CCD video
  camera driven by an automatic image selection system. A direct linear
  relation between the observed brightness of the features and that
  of the surrounding background areas has been found. To eliminate the
  influence of the seeing on this result, the radiative fluxes, which
  are much less sensitive to the image degradation, have been examined
  and an analogous relation has been found. Finally, a possible physical
  explanation is suggested.

---------------------------------------------------------
Title: Report from the Canary Islands.
Authors: Sobotka, M.
1991Rise...72..209S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Photometry of the Umbral Structure of a Fast-developing Sunspot
Authors: Sobotka, M.; Simberova, S.; Bumba, V.
1991BAICz..42..250S    Altcode:
  A high-quality white-light photograph of an umbra of a large complex
  spot was analyzed. Digital image processing methods were used. The
  extensively inhomogeneous structure of the umbra, related to the fast
  dynamics of development, displays many features (dark cores, bright
  dots, light bridge, etc.), intensities and temperatures which were
  studied in detail. In the dark cores a relatively low temperature was
  obtained. A relation between the intensity of the individual bright
  umbral dots and their dark surroundings was found.

---------------------------------------------------------
Title: Photometry of the Internal Structure of a Large Umbra
Authors: Bumba, V.; Sobotka, M.; Šimberová, S.
1990PDHO....7...84B    Altcode: 1990ESPM....6...84B; 1990dysu.conf...84B
  An analysis of a high-resolution white-light photograph of an umbra of a
  large complex main spot was performed. Digital image processing methods
  were used. The umbra was observed as a very inhomogeneous structure
  with large differences in intensities of the individual elements
  (dark cores, bright dots, light bridge, etc.). The temperatures of
  these elements were derived. It is demonstrated that the intensity
  of the individual bright umbral dots is related to the intensity of
  their dark surroundings.

---------------------------------------------------------
Title: Book reviews
Authors: Sobotka, M.; Dyson, John
1989Ap&SS.162..175S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Book-Review - 10TH European Regional Astronomical Meeting -
    Prague - 1987AUG
Authors: Perek, L.; Hejna, L.; Sobotka, M.; Ceplecha, Z.; Pecina,
   P.; Sidlichovsky, M.; Palous, J.; Harmanec, P.; Pecker, J. C.
1989BAICz..40..196P    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Spectroscopic Observations and Models of Umbral Light Bridges
Authors: Sobotka, M.
1989SoPh..124...37S    Altcode:
  Profiles of the NaI D lines in two moderately bright umbral light
  bridges are analyzed. A simple method of elimination of stray light
  is presented. The corrected continuum intensities (λ ≈ 588 nm)
  of the light bridges are 0.51 and 0.43. For each light bridge,
  using optimization technique, a semi-empirical model is derived. The
  models exhibit a steep temperature rise towards the subphotospheric
  layers. Generally, the temperature of the light bridges under
  investigation is lower than the temperature of the penumbra as well
  as the temperature of bright umbral dots.

---------------------------------------------------------
Title: Two-component Models of Individual Sunspot Umbrae
Authors: Sobotka, M.
1988BAICz..39..236S    Altcode:
  Semiempirical two-component models of 11 umbrae differing in size
  are presented and their general characteristics are discussed. The
  models, based on the profiles of the Fe I 543.5 nm and Na I D2 lines
  have bright components cooler than the undisturbed photosphere,
  with a temperature down-scaling factor Delta Theta = 0.10 in most
  cases. The temperature of dark components fluctuate in the range of
  Delta Theta = 0.35 to 0.50. The filling factor of the bright component
  remains practically constant in large umbrae whereas in small umbrae
  it changes considerably. No dependence of the temperature of both
  components as well as the filling factor on the phase of evolution of
  the spot was observed.

---------------------------------------------------------
Title: Instrumental profile of the HSFA-type spectrograph in the
    near infrared.
Authors: Sobotka, M.; Kotrc, P.
1987BAICz..38..272S    Altcode:
  A method of determining the instrumental profile of the horizontal
  solar spectrograph (HSFA) using an infrared sensitized photographic
  emulsion is described. Instrumental profiles, which include the effects
  of the non-zero slit width, diffraction and photographic emulsion along
  with possible distortions of the theoretical instrumental profile were
  determined by numerical convolution and deconvolution.

---------------------------------------------------------
Title: Spectroscopic investigation of two-component umbral structure.
Authors: Sobotka, M.
1987PAICz..66...33S    Altcode: 1987eram....1...33S
  On the basis of spectroscopic observations in the lines Fe I 543.5 nm
  and Na I D<SUB>2</SUB> the main characteristics of simple semi-empirical
  two-component models of 11 umbrae differing in size (radii 2arcsec -
  8arcsec) are studied.

---------------------------------------------------------
Title: The Sun. 10th European Regional Astronomy Meeting of the IAU,
    held inPraha, Czechoslovakia, 24 - 29 August 1987. Proceedings,
    Vol. 1.
Authors: Hejna, Ladislav; Sobotka, Michal
1987PAICz..66.....H    Altcode: 1987eram....1.....H
  Solar astronomy papers are presented, covering topics such as
  the solar and stellar magnetic fields, the fine structure of solar
  active regions, fragments in sunspots, photospheric granules, active
  region fine structures, two-component umbral structure, bright
  facular points in active regions, granulation variations with solar
  latitude, the evolution and decay of active regions, the local dynamo
  in sunspot groups, the extreme solar activity of February 1986, radial
  differential rotation, 530.3 nm corona irradiance variations in cycle
  21, and long-period components in solar wind velocities. Other topics
  include electric current density in the photosphere, surges as tracers
  of magnetic lines, magnetic turbulent diffusion, the relationship
  of large-scale solar magnetic and velocity fields to solar active
  phenomena, high flare activity and redistribution of solar magnetic
  fields, the velocity field and solar activity, evershed flow, sunspot
  rotation and electric currents, the effects of fluid viscosity and
  electrical resistance on atmospheric Alfven waves, solar g modes, and
  supergranular motions around a decaying sunspot. Additional subjects
  include the physical structure of active regions, FIR solar images,
  cool flare loops, the Ly-alpha line in the chromosphere, eruptive
  prominences and coronal transients, chromospheric lines in sunspot
  umbra and penumbra, flaring loop parameters, X-ray studies of active
  regions, solar radio burst onset, the HXIS arches, magnetic field line
  reconnection by localized enhancement of resistivity, optical and IR
  spectrophotometry of quiescent prominences, continuum intensity and
  magnetic flux of solar fluxtubes, microwave emission from sunspots,
  and the S-component inside and outside of sunspots.

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Title: Infrared observations of quiescent prominences
Authors: Heinzel, P.; Kotrč, P.; Sobotka, M.; Zloch, F.; Scherbakova,
   Z. A.
1986CoSka..15..171H    Altcode:
  The authors have developed a sophisticated numerical technique to
  reduce infrared photographic spectra of quiescent prominences, taking
  into account the influence of instrumental profiles, scattered light
  and the noise. The reduced profiles were subsequently compared with
  theoretical ones.

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Title: Solar physics. 12th regional consultation, Smolenice, May 1986.
Authors: Sobotka, M.
1986Rise...67..204S    Altcode:
  No abstract at ADS

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Title: Semi-empirical models of sunspots in various phases of
    evolution
Authors: Sobotka, M.
1986CoSka..15..315S    Altcode:
  The characteristics of 10 semi-empirical models of umbrae of different
  sizes and in various phases of evolution are studied, namely: 1) the
  spectral distribution of the umbra/photosphere continuum intensity
  ratio, 2) the dependence of the integral umbra/photosphere intensity
  ratio on the umbral radius, 3) the variations of the integral contrast
  of umbrae from the disk center to the limb. This study and earlier
  ones indicate that the characteristics of the model depend mainly on
  the umbral radius and do not depend on the phase of evolution.

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Title: Semiempirical models of sunspots
Authors: Sobotka, M.
1985AZh....62..995S    Altcode:
  On the basis of spectroscopic observations in the Mg I b1, Fe I 5434
  A, and Na I D2 lines, 12 semiempirical models of sunspots of different
  sizes (r umbral radius, 2-8 arcsec) are constructed for several stages
  of their development. It is shown that the model of an umbra varies
  greatly with an increase in umbral radius up to a limiting value of
  3.5-4 arcsec (Su = 7.5 MSH), after which the changes are small, and
  for a fixed umbral radius there is no significant difference between
  the models of sunspots in different phases of their development.

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Title: Semiempirical Models of Sunspots
Authors: Sobotka, M.
1985SvA....29..576S    Altcode:
  No abstract at ADS

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Title: An Analysis of Spectral Lines in Sunspot Umbrae
Authors: Sobotka, M.
1985BAICz..36..230S    Altcode:
  Spectroscopic observations of sunspots of different areas and in
  various phases of evolution were performed with the horizontal
  telescope-spectrograph in Ondřejov. A technique for obtaining a
  semiempirical model of photospheric layers in the umbra from observed
  line profiles (corrected for stray light) is described together with
  a set of computational programs. Some preliminary results are presented.

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Title: Horizontal solar telescopes in Czechoslovakia.
Authors: Sobotka, M.
1985Rise...66..226S    Altcode:
  No abstract at ADS

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Title: Stray light determination in small sunspots.
Authors: Sobotka, M.
1983PDHO....5..581S    Altcode: 1984PDHO....5..581S
  Correct analysis of spectral line profiles arising from the
  spot requires a determination of the fraction α of photospheric
  stray light. To do this, either an approximate formula derived
  by Maltby, or the method introduced by Zwaan and Staveland can be
  used. The latter method needs a determination of several blurring
  and scattering parameters. In the case of the observations made
  by a new horizontal solar telescope spectrograph in Ondřejov, the
  scattering is negligible. The blurring parameters can be determined
  from an observed photometric profile of the solar limb. According
  to preliminary measurements of 12 sunspot spectra, the values of α,
  computed by the above method, are on an average lower by a factor 0.85
  as compared to those obtained from Maltby's approximate formula.

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Title: Physical conditions in sunspots.
Authors: Sobotka, M.
1983Rise...64..245S    Altcode:
  No abstract at ADS

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Title: Spectroscopy of the Nova LV Vulpeculae (1968 No. 1)
Authors: Grygar, J.; Sobotka, M.; Stefl, S.
1981BAICz..32...88G    Altcode:
  Spectroscopic data of the fast nova LV Vul were obtained during the
  28 April-15 October 1968 period. Fifty-one lines of nine elements
  (H, He, C, N, O, Ca, Ti, Cr and Fe) at various ionization stages were
  identified, including several forbidden lines of oxygen and iron. The
  radial velocities of the emission peaks and of absorption components
  were determined. Six distinct absorption systems were identified
  and within each the course of the radial velocities with time was
  approximated. The average acceleration for all systems was 0.20 plus
  or minus 0.04 m/sq s. This is an order of magnitude greater than for
  the slow nova HR Del. The linearity indicates that the driving force
  was constant for a time period of 1-2 months after the initial outburst.

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Title: Spectroscopy of the Nova IIR Delphini in the Years 1967-1968
Authors: Sobotka, M.; Grygar, J.
1979BAICz..30..129S    Altcode:
  Twenty-five spectrograms of the nova HR Del are examined which were
  obtained with dispersions of 0.8 to 8.6 nm/mm in the period between
  October 1967 and December 1968. Some 225 lines of 19 elements in various
  degrees of ionization are identified, radial velocities are determined
  for the absorption and emission lines, and a detailed structural
  analysis of the absorption systems in different phases is performed
  separately for the Balmer lines, metal lines, and the He-C-N-O group. It
  is found that changes in the expansion velocities for the individual
  systems are caused by a very small acceleration (0.01 m/sec per sec)
  of ejected material and that the systems in the primary spectrum began
  to be accelerated at the end of March 1968. Changes in the appearance
  of the spectrum over the period of observation are described.

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Title: Spectroscopy of the Nova Vulpeculae 1968 NO. (lv Vul)
Authors: Sobotka, M.; Stefl, S.; Grygar, G.
1977ASSL...65...96S    Altcode: 1977nrst.conf...96S
  No abstract at ADS