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Author name code: holzer
ADS astronomy entries on 2022-09-14
author:"Holzer, Thomas E." 

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Title: Application of a New Technique for Deriving Prominence Mass
    from SOHO EIT Fe XII (19.5 nm) Absorption Features
Authors: Gilbert, Holly R.; Falco, Lauren E.; Holzer, Thomas E.;
   MacQueen, R. M.
2006ApJ...641..606G    Altcode:
  In a previous study we developed a new technique for deriving prominence
  mass by observing how much coronal radiation in the Fe XII (19.5 nm)
  spectral line is absorbed by prominence material. In the present work
  we apply this new method, which allows us to consider the effects
  of both foreground and background radiation in our calculations,
  to a sample of different types of prominences (eruptive, quiescent,
  and surging) observed during the period 1999 July through 2004
  July. The masses of prominences involved in CMEs are not generally
  measured, but the accurate determination of such masses may help in
  assessing the dynamical importance of prominences in CME events. In
  the present study, we find the average mass of our sample of quiescent
  prominences to be 4.18×10<SUP>14</SUP> g, while the average mass
  of the eruptive prominences is 9.09×10<SUP>14</SUP> g, and that of
  surges is 1.53×10<SUP>14</SUP> g.

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Title: Heating and Acceleration of the Solar Plasma (Tutorial Talk)
Authors: Holzer, T. E.
2005ESASP.592..115H    Altcode: 2005soho...16E..18H; 2005ESASP.592E..18H
  No abstract at ADS

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Title: Multialtitude Observations of a Coronal Jet during the Third
    Whole Sun Month Campaign
Authors: Ko, Y. -K.; Raymond, J. C.; Gibson, S. E.; Alexander, D.;
   Strachan, L.; Holzer, T.; Gilbert, H.; Cyr, O. C. St.; Thompson, B. J.;
   Pike, C. D.; Mason, H. E.; Burkepile, J.; Thompson, W.; Fletcher, L.
2005ApJ...623..519K    Altcode:
  On 1999 August 26, a coronal jet occurred at the northwest limb near
  a sigmoid active region (AR 8668) that was the target for a joint
  observation plan (SOHO joint observing program 106) during the third
  Whole Sun Month Campaign. This jet was observed by several instruments
  at the limb (SOHO/CDS, SOHO/EIT, TRACE, and Mauna Loa Solar Observatory
  CHIP and PICS) and at 1.64 R<SUB>solar</SUB> (SOHO/UVCS). At the limb,
  this jet event displayed both low- and high-temperature components. Both
  high- and low-temperature components were evident during the early phase
  (first 20 minutes) of the event. However, the low-temperature component
  is maintained for ~1 hr after the higher temperature component is
  gone. There is a second brightening (a possible second jet) seen by
  EIT and TRACE about 50 minutes after the onset of the first jet. The
  line-of-sight motion at the limb began with a 300 km s<SUP>-1</SUP>
  redshift and evolved to a 200 km s<SUP>-1</SUP> blueshift. At
  1.64 R<SUB>solar</SUB>, the intensities of Lyα and Lyβ in the jet
  increased by a factor of several hundred compared with the background
  corona. The C III λ977 line also brightened significantly. This
  indicates low-temperature [~(1-2)×10<SUP>5</SUP> K] emission in the
  jet, while the intensities of O VI λ1032 and O VI λ1037 increased
  by as much as a factor of 8. The UVCS data show evidence of heating at
  the early phase of the event. The Doppler shift in the lines indicates
  that the line-of-sight (LOS) velocity in the jet started from ~150
  km s<SUP>-1</SUP> in blueshift and ended at ~100 km s<SUP>-1</SUP>
  in redshift. This LOS motion seen at 1.64 R<SUB>solar</SUB> was
  apparently opposite to what was observed when the jet emerged from the
  limb. The Doppler dimming analysis indicates that the radial outflow
  speed correlates with the magnitude of the LOS speed. Interestingly,
  UVCS observations at 2.33 and 2.66 R<SUB>solar</SUB> show no trace of
  the jet and SOHO/LASCO observations also yield no firm detection. We
  find that a simple ballistic model can explain most of the dynamical
  properties of this jet, while the morphology and the thermal properties
  agree well with reconnection-driven X-ray jet models.

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Title: Transient Coronal Holes as Seen in the He I 1083 nm MLSO
    Observations
Authors: de Toma, G.; Holzer, T. E.; Burkepile, J. T.; Gilbert, H. R.
2005ApJ...621.1109D    Altcode:
  Observations from Yohkoh SXT and SOHO EIT have shown that dimming
  regions often appear on the solar disk near the location of a
  coronal mass ejection (CME). We now can see brightenings in He I
  1083 nm observations made at the Mauna Loa Solar Observatory (MLSO)
  that form at the same time and are cospatial with the EUV intensity
  dimmings observed from space. The He I 1083 nm brightenings are
  induced by a decrease of the overlying coronal radiation. The EUV and
  X-ray dimmings and He I 1083 nm brightenings can thus be interpreted
  as different manifestations of the decreased coronal density caused
  by the ejection of coronal material during the eruption, i.e., as
  transient coronal holes. In this paper we present examples of transient
  coronal holes that form during the CME onset as seen in He I 1083 nm
  data and compare them with simultaneous observations in the Fe XII
  19.5 nm line. We find that there is good agreement in both shape and
  size of the transient coronal holes at these two wavelengths. The
  3 minute cadence of the He I 1083 nm observations taken at MLSO is
  used to determine the appearance and evolution of transient coronal
  holes with high temporal accuracy. Additional data in the Hα line
  and in broadband visible light are used to investigate the relation of
  transient coronal holes to the flare, filament eruption, and CME. The
  cases presented here illustrate how the higher time cadence of the MLSO
  observations can complement space data to establish the chronology of
  the various manifestations of solar activity associated with a CME.

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Title: A New Technique for Deriving Prominence Mass from SOHO/EIT
    Fe XII (19.5 Nanometers) Absorption Features
Authors: Gilbert, Holly R.; Holzer, Thomas E.; MacQueen, R. M.
2005ApJ...618..524G    Altcode:
  It is presently unclear what role prominences play in the initiation and
  dynamics of coronal mass ejections (CMEs), although erupting prominences
  are strongly correlated with CMEs. The masses of prominences involved in
  CMEs are not generally measured, but the accurate determination of such
  masses may help in assessing the dynamical importance of prominences in
  CME events. In the technique for deriving prominence mass introduced in
  the present work, we use observations of coronal radiation in the Fe XII
  (19.5 nm) spectral line, which is absorbed by prominence material. This
  new method allows us to consider the effects of both foreground and
  background radiation in our calculations, and it can be applied to
  both quiescent and erupting prominences by using two versions of the
  method, which we label the “spatial-interpolative” version and the
  “temporal-interpolative” version. When both versions can be applied
  to the same event, we find that the temporal-interpolative approach
  yields the more accurate results. We have applied both versions to
  an erupting prominence observed on 1999 July 12 (this prominence has
  an associated CME), and we find that the two approaches result in
  similar mass determinations: (6.0+/-2.5)×10<SUP>14</SUP>g for the
  temporal-interpolative approach and (7.4+/-4.6)×10<SUP>14</SUP>g for
  the spatial-interpolative approach.

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Title: Transient Coronal Holes: EUV and IR HeI 1083nm Observations
Authors: de Toma, G.; Holzer, T. E.; Gilbert, H. R.; Burkepile, J. T.
2004AGUFMSH53B0328D    Altcode:
  We present cases of transient coronal holes following a CME observed
  simultaneously by SOHO/EIT and the instruments at Mauna Loa Solar
  Observatory (MLSO). We describe the formation of the transient coronal
  holes and their relationship to the flare evolution, filament eruption,
  and CME taking advantage of the high 3-minute temporal cadence of the
  MLSO observations. We find that transient coronal holes in HeI 1083nm
  correspond well to the EUV ones, both spatially and temporally

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Title: Chromospheric Waves Observed in the He I Spectral Line (λ =
10830 Å): A Closer Look
Authors: Gilbert, Holly R.; Holzer, Thomas E.
2004ApJ...610..572G    Altcode:
  Although “Moreton” waves have historically been observed in Hα data,
  more recently waves have also been observed in chromospheric He I
  (λ=10830 Å) images. In a previous study, we found that chromospheric
  waves observed in He I data (from the Mauna Loa Solar Observatory)
  in two events (occurring on 2000 November 25 and 2001 January 20)
  are cospatial with the corresponding coronal waves observed by EIT
  (Fe XII λ=195 Å). In an effort to better understand the nature of
  chromospheric waves, we focus on these two wave events observed in
  He I in which two interesting phenomena occur: the waves are visible
  in the He I velocity data, and multiple waves are observed for each
  event. We suggest that the velocity signal is a result of slow-mode
  wave compression followed by a slow-mode wave rarefaction propagating
  downward from the corona into the upper chromosphere. We also suggest
  that the observed multiple waves indicate that more than one driving
  mechanism may be involved.

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Title: A Comparison of CME-Associated Atmospheric Waves Observed in
    Coronal (Fe XII 195 Å) and Chromospheric (He I 10830 Å) Lines
Authors: Gilbert, Holly R.; Holzer, Thomas E.; Thompson, Barbara J.;
   Burkepile, Joan T.
2004ApJ...607..540G    Altcode:
  Although “Moreton” waves have historically been observed in Hα
  data, more recently waves have also been observed in chromospheric
  He I λ10830 images obtained at the Mauna Loa Solar Observatory. In
  an effort to better understand the nature of chromospheric waves and
  their relationship to coronal waves observed in EUV Imaging Telescope
  (EIT) data, we focus on two events in which waves are observed
  simultaneously in He I λ10830 and Fe XII λ195, lines that are formed
  in the chromosphere and the corona, respectively. Comparing the waves
  observed in these two lines allows the determination of the spatial
  relationship between coronal and chromospheric waves and thus aids
  in the understanding of the underlying physics of waves in the solar
  atmosphere. The main goal of this work is to begin an investigation
  into whether both coronal and chromospheric waves are mechanical
  (e.g., MHD waves) by looking at their spatial relationship. We find
  that the chromospheric waves in these two events are cospatial with
  their coronal counterparts, indicating that they are not mechanical in
  nature but are chromospheric imprints of mechanical waves propagating
  through the corona. This conclusion is based on the nature of the
  formation of the He I absorption line.

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Title: Multi-Altitude Observations of a Coronal Jet
Authors: Ko, Y. -K.; Raymond, J. C.; Gibson, S. E.; Alexander, D.;
   Strachan, L.; Holzer, T.; Gilbert, H.; St. Cyr, O. C.; Thompson,
   B. J.; Pike, C. D.; Burkepile, J.; Thompson, W.; Fletcher, L.
2004AAS...204.5413K    Altcode: 2004BAAS...36..759K
  A coronal jet occurred on August 26, 1999 at the NW limb near a sigmoid
  active region (AR8668). This jet was observed by several instruments
  at the limb (SOHO/CDS, SOHO/EIT, TRACE, MLSO/CHIP, MLSO/PICS) and
  at 1.64 Ro (SOHO/UVCS). At the limb, this jet event has both low and
  high temperature components. The high temperature component appeared
  at the early phase (first 20 minutes) of the event along with the low
  temperature component while the latter seems to last long ( ∼ 1 hour)
  after the higher temperature component was gone. The line-of-sight
  motion at the limb started with red-shifted (by as much as 300 km/s)
  and turned blue-shifted (by as much as 200 km/s). At 1.64 Ro, the
  intensities of Lyα , Lyβ in the jet increased by a factor of several
  hundreds compared with the background corona. C III λ 977 line also
  brightened significantly. This indicates low temperature ( ∼ 1-2×
  10<SUP>5</SUP> K) emission in the jet, while the intensities of O VI
  λ 1032 and O VI λ 1037 increased by a factor of as large as 8. Both
  UVCS and CDS data show evidence of heating at the early phase of the
  event. The line-of-sight velocity seen at 1.64 Ro started with ∼ 150
  km/sec in blue shift and ended at ∼ 100 km/sec in red shift. This is
  apparently opposite to what were observed when the jet emerged from
  the limb. The Doppler dimming analysis indicates that the radial
  outflow speed correlates with the magnitude of the line-of-sight
  speed. Interestingly, UVCS observations at 2.33 and 2.66 Ro show no
  trace of the jet and LASCO observations also yield no firm sight of the
  jet. In this paper, we present the observations by these instruments
  and discuss the dynamical structure and physical properties of this
  jet. Y.-K. Ko acknowledges the support by NASA grant NAG5-12865.

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Title: Helmet Streamers Gone Unstable: Two-Fluid Magnetohydrodynamic
    Models of the Solar Corona
Authors: Endeve, Eirik; Holzer, Thomas E.; Leer, Egil
2004ApJ...603..307E    Altcode:
  The equations of magnetohydrodynamics (MHD) are used to study heating
  of electrons and protons in an axially symmetric model of the solar
  corona, extending from the coronal base to 15 solar radii. To study
  heating of electrons and protons separately, as well as the collisional
  coupling between the particle species, we use a two-fluid description
  of the electron-proton plasma. A steady coronal heat input, uniform base
  pressure, and dipole field boundary conditions produce a magnetic field
  configuration similar to that seen with white-light coronagraphs during
  quiet-Sun conditions: a helmet streamer is formed in the inner corona
  around the equator, surrounded by coronal holes at higher latitudes. The
  plasma inside the helmet streamer is in hydrostatic equilibrium, while
  in the coronal holes a transonic solar wind is accelerated along the
  field. The collisional coupling between electrons and protons becomes
  weak close to the coronal base. In the case of proton heating, the
  thermal structure along open and closed field lines is very different,
  and there is a large pressure jump across the streamer-coronal hole
  boundary. When the equations are integrated on a long timescale, the
  helmet streamer becomes unstable, and massive plasmoids are periodically
  released into the solar wind. These plasmoids contribute significantly
  to the total mass and energy flux in the solar wind. The mass of the
  plasmoids is reduced when electrons are heated.

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Title: Three-dimensional coronal density structure: 1. Model
Authors: Gibson, S. E.; Foster, D. J.; Guhathakurta, M.; Holzer, T.;
   St. Cyr, O. C.
2003JGRA..108.1444G    Altcode:
  The three-dimensional (3-D) density structure of the solar corona is a
  fundamental boundary condition on the solar wind. Most easily applied
  models of the global coronal density have been restricted to date
  to axisymmetric 2-D cases. We present here a 3-D model made up of a
  superposition of multiple streamers, having distinct gaussian widths in
  longitude and latitude and both longitudinal and latitudinal dependence
  of the neutral lines implicit beneath the streamer cores. Nonradiality
  of streamers and solar B-angle tilt are also explicitly treated. We
  show how this simple model can capture many of the general properties
  of coronal white light observations and demonstrate how such a model
  can assist in the interpretation of the multiple views on coronal
  structures such as will be provided by the upcoming STEREO mission.

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Title: Time Evolution of Coronal Holes and Their Impact on the
    Solar Wind
Authors: Holzer, T. E.; de Toma, G.; Arge, C. N.; Burkepile, J. T.
2003AGUFMSH42B0529H    Altcode:
  Coronal holes, which can be defined as open magnetic field regions on
  the Sun, are the source of high-speed streams and possibly slow wind
  and thus play an important role in nature and structure of the solar
  wind/heliosphere. Over the last decade, significant progress has been
  made in our ability to predict ambient solar wind conditions days in
  advance using a number of different models that vary widely in their
  sophistication (e.g., MHD and Potential Magnetic Field Source Surface
  Models) but all of which are driven by observations of the photospheric
  magnetic field in the form of synoptic maps. These ambient solar models
  based on extrapolation from photospheric magnetic fields are limited
  and cannot duplicate the complexity of the solar wind during periods
  of transient wind. However, a very recent comprehensive study by Arge
  et al. has shown that significant discrepancies often occur between
  model predictions and observations after transient wind has completed
  its passage past Earth and the observed solar wind has returned to
  ambient/background conditions (i.e., when the model is expected to
  resume performing well). Such discrepancies can persist for 2 to 3
  days after the passage of the transient. To understand the origin of
  these differences, we will use coronal observations at time of CMEs to
  study variations in the pattern of coronal holes at the Sun. Our goal
  is to investigate if changes in coronal holes (probably not visible in
  photospheric field synoptic maps) can be responsible for the changes
  seen at 1AU.

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Title: Acceleration of Prominences in the Low Corona
Authors: de Toma, G.; Burkepile, J. T.; Gilbert, H. R.; Holzer, T. E.
2003AGUFMSH22A0181D    Altcode:
  We show examples of prominence eruptions as observed in the low corona
  and present preliminary results of an observational study aimed to
  investigate the relationship between the acceleration of eruptive
  prominences and the speed of their associated CMEs. For this study,
  we have selected events near the limb when we can identify eruptive
  prominences in Mauna Loa ground based observations that show a clear
  association with CMEs during the period 1998-present. MLSO/CHIP
  images in the HeI 1083nm line and the MLSO/PICS images in the Hα
  656.3nm line are used to identify the eruptive prominences and to
  determine its projected radial velocity and acceleration. SOHO/LASCO
  and MLSO/MK4 observations are used to determine the trajectory of the
  corresponding CME.

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Title: Development of 2D MHD Self-Consistent Empirical Model of the
    Corona and Solar Wind
Authors: Sittler, E. C.; Ofman, L.; Gibson, S.; Holzer, T.; Davila,
   J.; Guhathakurta, M.
2003AGUFMSH42D..07S    Altcode:
  We are developing a 2D MHD self-consistent empirical model of
  the solar corona and solar wind. We constrain the solution using
  empirically determined estimates of the effective pressure for the
  momentum equation and effective heat flux for the energy equation
  provided from coronagraph data and Ulysses plasma and magnetic field
  data. Our solutions are steady state and do not use a polytrope which
  we know is not valid in the solar corona. We have been able to achieve
  preliminary convergence. We will present the results of an error
  analysis. Our results are presently only valid during solar minimum,
  but are generalizing so it can be used during the transition toward
  solar maximum (i.e., three current sheets). We will also present some
  preliminary results which will allow us to apply our solutions to
  solar maximum conditions.

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Title: 2D MHD Models of the Large Scale Solar Corona
Authors: Endeve, Eirik; Holzer, Thomas E.; Leer, Egil
2003AIPC..679..331E    Altcode:
  By solving the equations of ideal MHD the interaction of an isothermal
  coronal plasma with a dipole-like magnetic field is studied. We vary the
  coronal temperature and the magnetic field strength to investigate how
  the plasma and the magnetic field interact to determine the structure
  of the large scale solar corona. When our numerical calculations are
  initiated with an isothermal solar wind in a dipole magnetic field,
  the equations may be integrated to a steady state. Open and closed
  regions are formed. In the open regions the atmosphere expands into a
  super-sonic wind, and in the closed regions the plasma is in hydrostatic
  equilibrium. We find that the magnetic field configuration in the
  outer corona is largely determined by the equatorial current sheet.

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Title: Development of Multidimensional MHD Model for the Solar Corona
    and Solar Wind
Authors: Sittler, E. C.; Ofman, L.; Gibson, S.; Guhathakurta, M.;
   Davila, J.; Skoug, R.; Fludra, A.; Holzer, T.
2003AIPC..679..113S    Altcode:
  We are developing a time stationary self-consistent 2D MHD model of
  the solar corona and solar wind that explicitly solves the energy
  equation, using a semi-empirical 2D MHD model of the corona to provide
  an empirically determined effective heat flux qeff (i.e., the term
  effective means the possible presence of wave contributions). But,
  as our preliminary results indicate, in order to achieve high
  speed winds over the poles we also need to include the empirically
  determined effective pressure Peff as a constraint in the momentum
  equation, which means that momentum addition by waves above 2 RS are
  required to produce high speed winds. At present our calculations do
  not include the Peff constraint. The estimates of Peff and qeff come
  from the semi-empirical 2D MHD model of the solar corona by Sittler
  and Guhathakurta (1999a,2002) which is based on Mk-III, Skylab and
  Ulysses observations. For future model development we plan to use SOHO
  LASCO, CDS, EIT, UVCS and Ulysses data as constraints for our model
  calculations. The model by Sittler and Guhathakurta (1999a, 2002) is
  not a self-consistent calculation. The calculations presented here is
  the first attempt at providing a self-consistent calculation based on
  empirical constraints.

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Title: Two-dimensional Magnetohydrodynamic Models of the Solar Corona:
    Mass Loss from the Streamer Belt
Authors: Endeve, Eirik; Leer, Egil; Holzer, Thomas E.
2003ApJ...589.1040E    Altcode:
  The equations of magnetohydrodynamics (MHD) are used to study an axially
  symmetric model of the large-scale solar corona, extending from the
  coronal base to 15 solar radii. We use a uniform heating of the inner
  corona to investigate the energy output when the magnetic field is given
  as a dipole at the coronal base. The heat input produces a large-scale
  magnetic field structure similar to that found by Pneuman and Kopp,
  with coronal holes in the polar regions and a helmet streamer around the
  equator. We pay special attention to the energy balance in the system,
  and find that the role of heat conduction is important in determining
  the thermal structure in magnetically closed regions. Insufficient
  energy loss to the transition region leads to a high temperature inside
  the closed region. In the coronal holes a solar wind is accelerated into
  interplanetary space, and the temperature is lower. As the difference
  in pressure scale height along open and closed flux tubes is large, the
  helmet streamer does not relax to a steady state; it opens periodically
  to eject mass into interplanetary space. These mass ejections may
  contribute significantly to the mass and energy flux in the solar wind.

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Title: Multi-Wavelength Synoptic Study of Coronal Holes and Magnetic
    Fields
Authors: de Toma, G.; Arge, C. N.; Holzer, T. E.; Mayer, L. R.
2003SPD....34.0410D    Altcode: 2003BAAS...35..812D
  Using a combination of photospheric field and irradiance data (such
  as Hα, HeI 1083nm, and EUV wavelengths) in the form of solar synoptic
  maps along with potential field source surface (PFSS) extrapolations,
  we study the morphology and evolution of large-scale structures such
  as coronal holes and filament channels over the course of a few solar
  rotations. Multiple wavelengths are useful to correctly distinguish such
  features, that may have similar contrast at EUV wavelengths. We select
  the time period between January and March 2002, during the maximum phase
  of solar cycle 23, because of the relevant changes in coronal holes and
  active regions distribution. We compare the observational data with
  the results of a potential field source surface model calculation to
  assess how well the model captures the large scale structure as well
  as its ability to identify coronal holes versus filament channels.

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Title: Empirically Constrained Multidimensional MHD Model for the
    Solar Corona and Solar Wind
Authors: Sittler, E. C.; Ofman, L.; Gibson, S.; Guthathakurta, M.;
   Skoug, R.; Fludra, A.; Davila, J.; Holzer, T.
2002AGUFMSH21A0502S    Altcode:
  We are developing a time stationary self-consistent 2D MHD model of
  the solar corona and solar wind that explicitly solves the energy
  equation, using a semi-empirical 2D MHD model of the corona to provide
  an empirically determined effective heat flux q<SUB>eff</SUB> (i.e.,
  the term effective means the possible presence of wave contributions)
  for the energy equation and effective pressure P<SUB>eff</SUB>
  for the momentum equation. Preliminary results indicated that in
  order to achieve high speed winds over the poles we not only needed
  to use q<SUB>eff</SUB> in the energy equation, but also needed to
  include the empirically determined effective pressure P<SUB>eff</SUB>
  as a constraint in the momentum equation, which means that momentum
  addition by waves above 2 R<SUB>S</SUB> are required to produce high
  speed winds. A solution which only included q<SUB>eff</SUB> showed high
  acceleration over the poles below 2 R<SUB>S</SUB>, but then drooped
  above that radial distance indicating we needed momentum addition above
  that height to get high speed flows over the poles. We will show new
  results which include the added constraint of P<SUB>eff</SUB> in the
  momentum equation. This method will allows us to estimate the momentum
  addition term due to waves as a function of height and latitude within
  the corona. The estimates of P<SUB>eff</SUB> and q<SUB>eff</SUB> come
  from the semi-empirical 2D MHD model of the solar corona by Sittler and
  Guhathakurta (1999, 2002) which is based on Mk-III, Skylab and Ulysses
  observations. For future model development we plan to use SOHO LASCO,
  CDS, EIT, UVCS, Spartan 201-05 and Ulysses data as constraints for
  our model calculations. The model by Sittler and Guhathakurta (1999,
  2002) is not a self-consistent calculation. The calculations presented
  here are a continuing effort to provide a self-consistent calculation
  based on empirical constraints.

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Title: Chromospheric Waves Observed in HeI (1083 nm)- a Closer Look
Authors: Gilbert, H. R.; Holzer, T. E.
2002AGUFMSH52A0438G    Altcode:
  Although "Moreton" waves have historically been observed in H-alpha
  data, more recently waves have also been observed in chromospheric He
  I (1083 nm) images. In a previous study, we found that chromospheric
  waves observed in He I data (from the Mauna Loa Solar Observatory) in
  two events are co-spatial with the corresponding coronal waves observed
  by EIT (Fe XII 19.5 nm). In an effort to better understand the nature of
  chromospheric waves, we focus on these two wave events observed in He I
  in which two interesting phenomena occur: the waves are visible in the
  He I velocity data, and multiple waves are observed for each event. We
  suggest the velocity signal is a result of slow-mode wave compression
  followed by a slow-mode wave rarefaction in the chromosphere. We also
  suggest the observed multiple waves indicate more than one driving
  mechanism may be involved .

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Title: An Improved Calibration for Obtaining Intensity and
    Line-of-Sight Velocity Using MLSO/CHIP He I 1083 nm Observations.
Authors: Darnell, J. A.; Stanger, A. L.; Holzer, T. E.; Elmore, D. F.;
   Gilbert, H. R.; Detoma, G.; Burkepile, J. T.
2002AGUFMSH52A0445D    Altcode:
  A calibration technique has been developed utilizing normalized
  intensities measured at seven different He I filter positions which
  are used to infer the line-of-sight velocity of structures observed
  with the MLSO CHIP He I filter. To obtain He I intensity, the output
  from each of the seven filter positions are normalized to reflect only
  the photosheric continuum radiation and the He I 1083 nm absorption
  or emission line. Velocity is inferred from an application of these
  normalized intensities to an algorithm derived from an empirical
  analysis of synthetic spectra. Both the normalization technique
  and the application of the algorithm are presented as well as some
  example events.

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Title: 3-Dimensional Density Model of the Solar Corona
Authors: Foster, D.; Gibson, S. E.; Holzer, T.; Guhathakurta, M.
2002AGUFMSH52A0448F    Altcode:
  We present a 3-D density model of the solar corona, determined
  from synoptic maps of Carrington Rotations 1942-3 (22 Oct. 1998 -
  18 Nov. - 15 Dec. 1998). The rotations we have chosen include the
  time period of the SPARTAN 201-05 flight (Nov. 1-3, 1998), which
  had unprecedented spatial and temporal coverage of the white light
  corona. These rotations are also useful because they occur at a point
  in the solar cycle (ascending phase) that is complex enough to exhibit
  interesting 3-D structure, yet not so dynamic that a meaningful density
  model cannot be constructed using the rotation of the sun to provide
  the 3-D information. Along with SPARTAN data, we consider observations
  made by the Mark IV instrument in the Mauna Loa Observatory, and also
  SOHO/LASCO and EIT observations. Our analytic model, an extension
  of the axisymmetric model of Guhathakurta et al (1996), allows
  for multiple streamers varying in both latitude and longitude, and
  explicitly treats nonradial streamers. Our 3-D model will be useful
  for testing analysis techniques for the upcoming STEREO mission. We
  will also compare its structure to magnetic field extrapolation models,
  coronal hole boundaries, and magnetic neutral lines.

---------------------------------------------------------
Title: Neutral Atom Diffusion in a Partially Ionized Prominence Plasma
Authors: Gilbert, Holly R.; Hansteen, Viggo H.; Holzer, Thomas E.
2002ApJ...577..464G    Altcode:
  The support of solar prominences is normally described in terms of
  a magnetic force on the prominence plasma that balances the solar
  gravitational force. Because the prominence plasma is only partially
  ionized, this support needs to be understood in terms of the frictional
  coupling between the neutral and ionized components of the prominence
  plasma, the efficacy of which depends directly on the ion density. More
  specifically, the frictional force is proportional to the relative
  flow of neutral and ion species, and for a plasma with a sufficiently
  small vertical ion column density, this flow must be relatively large
  to produce a frictional force that balances gravity. A large relative
  flow, of course, implies significant draining of neutral particles from
  the prominence. We evaluate the importance of this draining effect for
  a hydrogen-helium plasma and consider the variation of the draining
  with a variety of prominence parameters. Our calculations show that
  the loss timescale for hydrogen is much longer than that for helium,
  which for typical prominence parameters is about one day.

---------------------------------------------------------
Title: The Structure and Evolution of a Sigmoidal Active Region
Authors: Gibson, S. E.; Fletcher, L.; Del Zanna, G.; Pike, C. D.;
   Mason, H. E.; Mandrini, C. H.; Démoulin, P.; Gilbert, H.; Burkepile,
   J.; Holzer, T.; Alexander, D.; Liu, Y.; Nitta, N.; Qiu, J.; Schmieder,
   B.; Thompson, B. J.
2002ApJ...574.1021G    Altcode:
  Solar coronal sigmoidal active regions have been shown to be precursors
  to some coronal mass ejections. Sigmoids, or S-shaped structures,
  may be indicators of twisted or helical magnetic structures, having
  an increased likelihood of eruption. We present here an analysis of a
  sigmoidal region's three-dimensional structure and how it evolves in
  relation to its eruptive dynamics. We use data taken during a recent
  study of a sigmoidal active region passing across the solar disk
  (an element of the third Whole Sun Month campaign). While S-shaped
  structures are generally observed in soft X-ray (SXR) emission, the
  observations that we present demonstrate their visibility at a range of
  wavelengths including those showing an associated sigmoidal filament. We
  examine the relationship between the S-shaped structures seen in SXR
  and those seen in cooler lines in order to probe the sigmoidal region's
  three-dimensional density and temperature structure. We also consider
  magnetic field observations and extrapolations in relation to these
  coronal structures. We present an interpretation of the disk passage
  of the sigmoidal region, in terms of a twisted magnetic flux rope
  that emerges into and equilibrates with overlying coronal magnetic
  field structures, which explains many of the key observed aspects of
  the region's structure and evolution. In particular, the evolving flux
  rope interpretation provides insight into why and how the region moves
  between active and quiescent phases, how the region's sigmoidicity is
  maintained during its evolution, and under what circumstances sigmoidal
  structures are apparent at a range of wavelengths.

---------------------------------------------------------
Title: Ionospheric response to the interplanetary magnetic field
southward turning: Fast onset and slow reconfiguration
Authors: Lu, G.; Holzer, T. E.; Lummerzheim, D.; Ruohoniemi, J. M.;
   Stauning, P.; Troshichev, O.; Newell, P. T.; Brittnacher, M.; Parks, G.
2002JGRA..107.1153L    Altcode:
  This paper presents a case study of ionospheric response to an
  interplanetary magnetic field (IMF) southward turning. It is based
  on a comprehensive set of observations, including a global network
  of ground magnetometers, global auroral images, and a SuperDARN HF
  radar. There is a clear evidence for a two-stage ionospheric response
  to the IMF southward turning, namely, fast initial onset and slow final
  reconfiguration. The fast onset is manifested by nearly simultaneous
  (within 2 min) rise of ground magnetic perturbations at all local times,
  corroborated by a sudden change in the direction of line-of-sight
  velocity near local midnight and by the simultaneous equatorward shift
  of the auroral oval. The slow reconfiguration is characterized by
  the different rising rate of magnetic perturbations with latitudes:
  faster at high latitude than at lower latitudes. Furthermore, a
  cross-correlation analysis of the magnetometer data shows that the
  maximum magnetic perturbation is reached first near local noon, and then
  spread toward the nightside, corresponding to a dayside-to-nightside
  propagation speed of ~5 km/s along the auroral oval. Global ionospheric
  convection patterns are derived based on ground magnetometer data
  along with auroral conductances inferred from the Polar UV images,
  using the assimilative mapping of ionospheric electrodynamics (AMIE)
  procedure. The AMIE patterns, especially the residual convection
  patterns, clearly show a globally coherent development of two-cell
  convection configuration following the IMF southward turning. While the
  foci of the convection patterns remain nearly steady, the convection
  flow does intensify with time and the cross-polar-cap potential drop
  increases. The overall changes as shown in the AMIE convection patterns
  therefore are fully consistent with the two-stage ionospheric response
  to the IMF southward turning.

---------------------------------------------------------
Title: Self-consistent 2D MHD modeling of multi-streamer coronal
    structures
Authors: Ofman, L.; Sittler, E. C.; Gibson, S.; Holzer, T. E.;
   Guhathakurta, M.
2002AGUSMSH21B..02O    Altcode:
  Recently, a semi-empirical 2D MHD model of the solar corona was
  constructed by Sittler and Guhathakurta [1999]. The model uses an
  empirical electron density and empirical magnetic field during solar
  minimum as input to the conservation equations of mass, momentum,
  and energy to derive an empirical effective heat flux, or empirical
  heating function. This semi-empirical model is not a self-consistent
  calculation. We explore the possibility of developing a self-consistent
  model that uses the empirical heating function as a constraint for the
  calculations. This allows us to solve the energy equation without use of
  a polytrope which we know does not apply near the Sun. For our initial
  attempt we use the empirically derived magnetic field model obtained
  from observed streamer topologies and Ulysses boundary conditions to
  initialize our self-consistent 2D MHD model of the solar corona. We
  solve the thermally conductive energy equations with an empirical
  heating function, and obtain 3-streamer structure with self-consistent
  magnetic field, current-sheets, solar wind outflow, density, and
  temperature. We compare the results of the thermally conductive model
  to the polytropic model, and to the empirical model. We find that
  the self-consistent magnetic field structure is more realistic then
  the empirical model. We find that the thermally conductive streamers
  result in more diffuse current-sheets than in the polytropic model. We
  also find that the heating function reduces the heliocentric distance
  of the streamers' cusp, and produces more rapid acceleration of the
  solar wind in the thermally conductive model then in the polytropic
  model, consistent with observations. We investigate the effect of
  various forms of the heating function, and of an empirically derived
  heat flux on the solutions.

---------------------------------------------------------
Title: An Improved Calibration for Obtaining Intensity and
    Line-of-Sight Velocity Using MLSO/CHIP He I 1083 nm Observations
Authors: Darnell, J. A.; Stanger, A. L.; Holzer, T. E.; Elmore, D.;
   Gilbert, H. R.; Detoma, G.; Burkepile, J. T.
2002AAS...200.5512D    Altcode: 2002BAAS...34..733D
  A calibration technique has been developed utilizing normalized
  intensities measured at seven different He I filter positions which are
  used to infer the line-of-sight velocity of structures observed with
  the Mauna Loa Solar Observatory (MLSO) CHIP He I filter. To obtain He
  I intensity, the outputs from each of the seven filter positions are
  normalized to reflect only the photospheric continuum radiation and
  the He I 1083 nm absorption or emission line. Velocity is inferred from
  an application of these normalized intensities to an algorithm derived
  from an empirical analysis of synthetic spectra. Both the normalization
  technique and the application of the algorithm are presented as well
  as some example events. The High Altitude Observatory is a division of
  the National Center for Atmospheric Research operated by the University
  Corporation for Atmospheric Research under sponsorship of the National
  Science Foundation.

---------------------------------------------------------
Title: Towards an Operational Sun-to-Earth Model for Space Weather
    Forecasting
Authors: Gombosi, T. I.; Clauer, C. R.; De Zeeuw, D. L.; Hansen,
   K. C.; Manchester, W. B.; Powell, K. G.; Ridley, A. J.; Roussev, I.;
   Sokolov, I. V.; Toth, G.; Wolf, R. A.; Sazykin, S.; Holzer, T. E.;
   Low, B. C.; Richmond, A. D.; Roble, R. G.
2002AGUSMSH51B..06G    Altcode:
  We are presently developing a physics based, modular, large-scale
  model of the solar-terrestrial environment simulating space weather
  phenomena and providing a framework to test theories and explore the
  possibility of operational use in space weather forecasting. This talk
  will describe the main components of the model (a global MHD code,
  an upper atmosphere and ionosphere model, and the inner magnetosphere
  drift physics model). We will also discuss the testing and transitioning
  the model through CCMC to operational use by NOAA SEC and the Air
  Force. Particular attention will be paid to the need of validation
  and metrics studies.

---------------------------------------------------------
Title: Transient Coronal Holes as seen in the HeI 1083nm Observations
Authors: de Toma, G.; Holzer, T. E.; Gilbert, H. R.; Burkepile, J. T.;
   Harvey, K. L.
2002AAS...200.3813D    Altcode: 2002BAAS...34R.700D
  Observations from Yohkoh/SXT and SOHO/EIT have shown that dimming
  regions often appear on the solar disk near the location of a Coronal
  Mass Ejection (CME). We can now see in HeI observations made at Mauna
  Loa Solar Observatory (MLSO) brightenings that form at the time of a
  CME and are co-spatial with the ultraviolet and X-ray dimmings. Both
  dimmings and brightenings can be interpreted as different manifestations
  of the decreased density of the overlying corona caused by the ejection
  of coronal material during the eruption, i.e. as transient coronal
  holes. Because of the 3-minute cadence of the HeI 1083nm observations
  at MLSO, we can now determine the appearance and evolution of transient
  coronal holes with high accuracy. In this paper, we present examples
  of transient coronal holes as seen in HeI data and compare them with
  simultaneous observations in the H alpha line and in the ultraviolet.

---------------------------------------------------------
Title: A Comparison of CME-associated Atmospheric Waves Observed in
    Coronal (Fe XII 19.5 nm) and Chromospheric (He I 1083 nm) Lines
Authors: Gilbert, H. R.; Thompson, B. J.; Holzer, T. E.; Burkepile,
   J. T.
2002AAS...200.3808G    Altcode: 2002BAAS...34..699G
  In an effort to better understand the relationship between coronal waves
  (EIT waves) and chromospheric waves, we study two events in which waves
  are observed simultaneously in both Fe XII (19.5 nm) and He I (1083 nm):
  lines formed in the corona and chromosphere, respectively. Comparing
  the waves observed in these two lines allows the determination of the
  spatial relationship between coronal and chromospheric waves, and thus
  aids in the understanding of the underlying physics of waves. The main
  goal of this work is to begin an investigation into whether coronal
  and chromospheric waves are both mechanical waves (e.g., MHD waves),
  or whether chromospheric waves are simply "reflections" of mechanical
  waves propagating in the corona.

---------------------------------------------------------
Title: The Effect of Transition Region Heating on the Solar Wind
    from Coronal Holes
Authors: Lie-Svendsen, Øystein; Hansteen, Viggo H.; Leer, Egil;
   Holzer, Thomas E.
2002ApJ...566..562L    Altcode:
  Using a 16 moment solar wind model extending from the chromosphere to
  1 AU, we study how the solar wind is affected by direct deposition
  of energy in the transition region, in both radially expanding
  geometries and rapidly expanding coronal holes. Energy is required
  in the transition region to lift the plasma up to the corona, where
  additional coronal heating takes place. The amount of energy deposited
  determines the transition region pressure and the number of particles
  reaching the corona and, hence, how the solar wind energy flux is
  divided between gravitational potential and kinetic energy. We find that
  when only protons are heated perpendicularly to the magnetic field in a
  rapidly expanding coronal hole, the protons quickly become collisionless
  and therefore conduct very little energy into the transition region,
  leading to a wind much faster than what is observed. Only by additional
  deposition of energy in the transition region can a reasonable mass flux
  and flow speed at 1 AU be obtained. Radiative loss in the transition
  region is negligible in these low-mass flux solutions. In a radially
  expanding geometry the same form of coronal heating results in a
  downward heat flux to the transition region substantially larger
  than what is needed to heat the upwelling plasma, resulting in a
  higher transition region pressure, a slow, massive solar wind, and
  radiative loss playing a dominant role in the transition region energy
  budget. No additional energy input is needed in the transition region
  in this case. In the coronal hole geometry the solar wind response to
  transition region heating is highly nonlinear, and even a tiny input of
  energy can have a very large influence on the asymptotic properties of
  the wind. By contrast, the radially expanding wind is quite insensitive
  to additional deposition of energy in the transition region.

---------------------------------------------------------
Title: Development of an Integrated Predictive MHD Space Weather
    Model from the Solar Surface to the Earth's Upper Atmosphere
Authors: Clauer, C. R.; Gombosi, T. I.; Powell, K. G.; Stout, Q. F.;
   Toth, G.; Dezeeuw, D.; Ridley, A. J.; Wolf, R. A.; Roble, R. G.;
   Holzer, T. E.
2002swsm.conf..149C    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: A Comparison of CME-associated atmospheric waves observed in
    coronal (19.5 nm) and chromospheric (He I 1083 nm and H-alpha 656
    nm) lines
Authors: Gilbert, H. R.; Thompson, B. J.; Holzer, T. E.; Burkepile,
   J. T.
2001AGUFMSH12B0746G    Altcode:
  Coronal Mass Ejections (CMEs) are frequently associated with wave
  phenomena observed in the corona, and sometimes with wave phenomena
  observed in the chromosphere. We have studied CME-associated waves
  observed in both coronal (19.5 nm) and chromospheric (He I 1083 nm and
  H-alpha 656 nm) lines. Comparison of the coronal and chromospheric
  signatures allows us to understand better the relationship between
  the two wave phenomena.

---------------------------------------------------------
Title: Neutral Atom Diffusion in a Paritially Ionized Prominence
    Plasma
Authors: Gilbert, H. R.; Hansteen, V. H.; Holzer, T. E.
2001AGUSM..SP61A09G    Altcode:
  The support of solar prominences is normally described in terms of
  a magnetic force on the prominence plasma that balances the solar
  gravitational force. Because the prominence plasma is only partially
  ionized, it is necessary to consider in addition the support of
  the neutral component of the prominence plasma. This support is
  accomplished through a frictional interaction between the neutral and
  ionized components of the plasma, and its efficacy depends strongly
  on the degree of ionization of the plasma. More specifically, the
  frictional force is proportional to the relative flow of neutral and ion
  species, and for a sufficiently weakly ionized plasma, this flow must be
  relatively large to produce a frictional force that balances gravity. A
  large relative flow, of course, implies significant draining of neutral
  particles from the prominence. We evaluate the importance of this
  draining effect for a hydrogen-helium plasma, and consider the variation
  of the draining with the degree of heat input to the prominence plasma,
  which determines the ionization state of the prominence.

---------------------------------------------------------
Title: The Relationship Between Eruptive Prominence Acceleration
    and CME Speed
Authors: de Toma, G.; Gilbert, H. R.; Holzer, T. E.; Burkepile, J. T.
2001AGUSM..SH22B04D    Altcode:
  We present an observational study of the relationship between the
  acceleration of eruptive prominences and the speed of their associated
  CMEs during the period 1998--2001 using observations from the Mauna Loa
  Solar Observatory (MLSO) and the SOHO satellite. We have used MLSO/CHIP
  data in the HeI 1083 nm line and the MLSO/PICS in the Hα 656.3 nm
  line to identify eruptive prominences that show a clear association
  to CMEs seen by the MLSO/MarkIV and SOHO/LASCO coronagraphs. Events
  occurring at the limb, or near the limb have been selected for this
  study to minimize projection effects. Ground based observations have
  been used to determine the projected radial velocity and acceleration
  of the eruptive prominences, while SOHO/LASCO observations have been
  used to determine the same parameters of the corresponding CMEs. The
  principal goal of this study is to allow the use of line--of--sight
  velocity (and acceleration) measurements of erupting filaments obtained
  by the MLSO/CHIP instrument to infer the speeds of earth--directed
  CMEs. In particular, we are interested in determining whether the
  faster, and more geoeffective CMEs can be associated with a specific
  class of eruptive prominences/filaments. It is also hoped that this
  study will shed light on the acceleration mechanisms of CMEs.

---------------------------------------------------------
Title: Narrow Coronal Mass Ejections
Authors: Gilbert, Holly R.; Serex, Elizabeth C.; Holzer, Thomas E.;
   MacQueen, R. M.; McIntosh, Patrick S.
2001ApJ...550.1093G    Altcode:
  Narrow coronal mass ejections (CMEs), defined arbitrarily as events
  whose apparent angular width is 15° or less, are a small subset of
  all CMEs. Little is known of the properties of these events and whether
  these properties differ from those of the larger, more typical CMEs. We
  have included in this study 15 narrow CMEs observed in the period from
  1999 March through December, and we have examined their structure,
  angular size, projected radial velocity (speed), and likely surface
  associations. We find it useful to break these events into two classes:
  structured and unstructured. Unstructured narrow events are generally
  narrower and slower than the structured events, but both classes of
  narrow CMEs exhibit speeds similar to those of larger CMEs. We found
  that 11 of 15 events studied may be traced to regions on the solar
  surface near a relatively sharp bend in a polarity-reversal line,
  as revealed from Hα synoptic maps. We contrast the properties of the
  narrow CMEs with those of the larger CME population.

---------------------------------------------------------
Title: Observational Interpretation of an Active Prominence on 1999
    May 1
Authors: Gilbert, Holly R.; Holzer, Thomas E.; Burkepile, Joan T.
2001ApJ...549.1221G    Altcode:
  This paper presents an observational study of an active prominence
  observed in He I 1083 nm intensity and velocity data obtained at the
  Mauna Loa Solar Observatory, which provide physical insight into
  dynamical processes associated with prominences. We compare these
  observations with existing theoretical prominence models, which fall
  into two main classes: dip models and flux rope models. Dip models
  use sagging magnetic arches to explain prominence support, while flux
  rope models are characterized by helical magnetic field lines that
  trap prominence material at the bottom of the rope. The prominence on
  which we focus in the present paper has four interesting components
  of activity, all of which we attempt to explain using each of three
  different prominence models: the normal and inverse polarity flux rope
  models and the dip model. Our objective is to test the viability of
  each of these models in describing this type of activity. The model
  that appears consistent with the observed activity in this particular
  prominence is the inverse polarity flux rope model. We suggest that
  the process of vertical reconnection between an inverse polarity flux
  rope and an underlying magnetic arcade may best describe the observed
  prominence activity.

---------------------------------------------------------
Title: Solar Coronal Brightness Changes and Mass Ejections during
    Solar Cycle 22
Authors: MacQueen, R. M.; Burkepile, J. T.; Holzer, T. E.; Stanger,
   A. L.; Spence, K. E.
2001ApJ...549.1175M    Altcode:
  Observations of the brightness of the outer solar corona from the
  Solar Maximum Mission (SMM) coronagraph during solar cycle 22 (1980,
  then 1984-1989) are compared with the occurrence rate and the mass of
  coronal mass ejections (CMEs) observed during this period. We find that
  the brightness and, hence, mass of the outer corona increased by more
  than a factor of 4 from solar minimum (1986) to late 1989, when the
  SMM ceased operation. The peak brightness (mass) in 1989 was roughly
  equivalent to that observed in the latter part of 1980. Accompanying a
  sharp increase in brightness (mass) of the corona in early 1989 was a
  concomitant increase in both the occurrence rate and the average mass
  of CMEs.

---------------------------------------------------------
Title: Active and Eruptive Prominences and Their Relationship to
    Coronal Mass Ejections
Authors: Gilbert, Holly R.; Holzer, Thomas E.; Burkepile, Joan T.;
   Hundhausen, Arthur J.
2000ApJ...537..503G    Altcode:
  In order to understand better the dynamical processes in the
  solar atmosphere that are associated with coronal mass ejections
  (CMEs), we have carried out a study of prominence activity using Hα
  observations obtained at the Mauna Loa Solar Observatory (MLSO). After
  developing clear definitions of active prominences (APs) and eruptive
  prominences (EPs), we examined 54 Hα events to identify distinguishing
  characteristics of APs and EPs and to study the relationship between
  prominence activity and CMEs. The principal characteristics we found
  to distinguish clearly between APs and EPs are maximum projected radial
  height, projected radial velocity, and projected radial acceleration. We
  determined CME associations with Hα events by using white-light data
  from the Mk III K-Coronameter at MLSO and the LASCO C2 Coronagraph on
  SOHO. We found that EPs are more strongly associated with CMEs than
  are APs and that the CMEs associated with EPs generally have cores,
  while those associated with APs do not. A majority of the EPs in the
  study exhibit separation of escaping material from the bulk of the
  prominence-the latter initially lifting away from and then returning
  toward the solar surface. This separation tends to occur in the height
  range from 1.20 to 1.35 R<SUB>0</SUB>, and we infer that it involves
  the formation of an X-type neutral line in this region, which allows
  disconnection of part of the prominence material. This disconnection
  view of prominence eruption seems most consistent with flux rope models
  of prominence support.

---------------------------------------------------------
Title: SOHO/UVCS Observations of a Coronal Jet During the Third
    Whole Sun Month Campaign
Authors: Ko, Y. -K.; Raymond, J.; Gibson, S.; Strachan, L.; Alexander,
   D.; Fletcher, L.; Holzer, T.; Gilbert, H.; Burkepile, J.; St. Cyr,
   C.; Thompson, B.
2000SPD....31.0271K    Altcode: 2000BAAS...32R.823K
  On August 26 1999, a coronal jet occurred at the north west limb
  near a sigmoid active region which has been the target for a joint
  observation plan during the third Whole Sun Month Campaign. This jet
  was observed by several instruments at the limb (SOHO/CDS, SOHO/EIT,
  TRACE, MLSO/CHIP, MLSO/PICS), at 1.7 Ro (SOHO/UVCS), and at the outer
  corona (SOHO/LASCO). At 1.7 Ro, the intensities of Lyman alpha, Lyman
  beta in the jet increased by as large a factor of 100 compared with the
  background corona, while those for O VI 1032 and O VI 1037 increased
  by a factor of 2. C III 977 line also brightened significantly. The
  line shift in the lines indicates that the line-of-sight velocity in
  the jet started from 150 km/sec blue shift and ended at 120 km/sec
  red shift. This line-of-sight motion seen at 1.7 Ro apparently was
  opposite that observed when the jet emerged from the limb. In this
  paper, we present the observation by SOHO/UVCS and discuss the dynamic
  structure and physical properties of this jet as it passed through
  1.7 Ro. Comparisons will be shown with the observations from other
  instruments. This work is supported by NASA Grant number NAG5-7822.

---------------------------------------------------------
Title: A New Method of Determining Line-of-Sight Velocity Using
    MLSO/CHIP He I 1083 nm Observations
Authors: Holzer, T. E.; Gilbert, H. R.; Elmore, D. F.; MacQueen, R. M.
2000SPD....3102107H    Altcode:
  A new method for determining line-of-sight velocity has been developed
  for the MLSO/CHIP He I 1083 nm instrument. The method involves tuning
  the Lyot-type spectral filter to seven different positions during
  each observing sequence (lasting about 3 minutes). The algorithm for
  line-of-sight velocity determination using these seven filter positions
  yields an accuracy of better than 10 km/s over a line-of-sight velocity
  range from -100 km/s to +100 km/s. The method is applicable to the
  observation of filaments, surges, sprays, and other features exhibiting
  sufficiently strong absorption or emission in the 1083 nm line. It
  therefore will be particularly useful in the study of eruptive events
  seen against the solar disk, such as filament eruptions associated with
  earthward-directed coronal mass ejections. The High Altitude Observatory
  (HAO) is part of the National Center for Atmospheric Research (NCAR),
  which is sponsored by the National Science Foundation under the
  management of the University Corporation for Atmospheric Research.

---------------------------------------------------------
Title: Multispecies Treatment of Abundance and Temperature Variations
    due to Mass Flows in the Solar Transition Region
Authors: Woods, D. T.; Holzer, T. E.
2000SPD....31.0220W    Altcode: 2000BAAS...32..814W
  We compute the density and temperature of a multicomponent plasma
  consisting of electrons, protons, ionized, helium, and a trace minor
  ion species (carbon). The equations of force and energy balance
  are developed allowing for the possibility that the velocity and
  temperature of each species are different. For the case of downflows,
  we find that the minor ion temperature can be significantly hotter
  than the electron temperature, and significant abundance enhancements
  can occur due to the slow down of the minor ions from the effect of
  the thermal force. The minor ion temperature enhancements relative to
  the electron temperature can have implications for the computation of
  detailed line profiles. Also, the effect of the thermal force may be of
  importance to studies of the emission from asymetrically heated loops
  in which the minor ion abundance will be enhanced in the downflowing
  leg and diminished in the upward flowing leg. This would tend to make
  the downflowing side appear brighter in a given line, and therefore
  contribute to the production of a net redshift in a spatially unresolved
  loop. This research is supported in part by NASA grant NAG5-7929.

---------------------------------------------------------
Title: Prominence Densities as Derived from SOHO/EIT Fe XII (195
    Angstrom) Absorption Features
Authors: Gilbert, H.; Mize, L.; Holzer, T.; MacQueen, R.
2000SPD....31.0218G    Altcode: 2000BAAS...32..814G
  Prominences often appear in absorption when the sun is viewed in EUV
  emission lines formed at coronal temperatures. The coronal EUV radiation
  at wavelengths less than 504 anstroms undergoes Lyman continuum
  absorption by both hydrogen and helium (i.e., the coronal radiation
  ionizes hydrogen and helium atoms from their ground states). We can
  thus infer prominence column densities by measuring the amount of
  coronal radiation absorbed by prominence material along the line of
  sight, and by making assumptions concerning the ionization state and
  the helium abundance characterizing the prominence plasma. We do so
  by measuring 195 angstrom intensity along lines of sight inside and
  outside prominences, both just on the disk and just off the limb. Our
  absorption measurements are made using Fe XII (195 angstroms) data
  from the Extreme Ultraviolet Imaging Telescope (EIT) on board the
  SOHO spacecraft. Initial results using our technique yield prominence
  densities on the order of 10<SUP>10</SUP> cm<SUP>-3</SUP>. This is
  the first step in reaching our ultimate objective of attaining a
  quantitative measure of total prominence mass, which may be important
  in the dynamical processes involved in Coronal Mass Ejection initiation
  and evolution.

---------------------------------------------------------
Title: Solar Wind Theory
Authors: Holzer, Thomas
2000APS..APRH14001H    Altcode:
  Our understanding of the acceleration of the solar wind is based largely
  on E. N. Parker’s work more than three decades ago. With steadily
  improving observations (and concomitant theoretical research) of the
  outer solar atmosphere and the solar wind, however, this understanding
  has progressed significantly. Nevertheless, we have yet to answer
  certain fundamental questions concerning the origin, transport, and
  dissipation of energy required to heat the solar corona and drive the
  solar wind. This talk will outline our present understanding of solar
  wind acceleration and some of the questions that remain to be answered.

---------------------------------------------------------
Title: Dynamics of polar plumes observed at the 1998 February
    26 eclipse
Authors: Lites, B. W.; Card, G.; Elmore, D. F.; Holzer, T.; Lecinski,
   A.; Streander, K. V.; Tomczyk, S.; Gurman, J. B.
1999SoPh..190..185L    Altcode:
  This paper presents first observations of dynamics of the white-light
  solar corona detected during the few minutes of totality of a solar
  eclipse. Perturbations of a polar plume associated with an embedded
  `jet' structure observed simultaneously at 195 Å with the EUV
  Imaging Telescope (EIT) aboard the SOHO spacecraft lead to estimates
  of the electron density fluctuations accompanying the jet: ±15%. The
  morphological behavior of the jet, its apparent upward propagation speed
  of ≈200 km s<SUP>−1</SUP>, and the inferred density perturbations
  suggest that the jet is led by a weak, outward-propagating shock
  resulting from the injection of material at high velocity at the base of
  the corona. Smaller perturbations of the white-light corona are apparent
  at many other locations, sustaining hope that propagating Alfvén waves
  may be measurable in the solar corona. Density perturbations associated
  with the jet follow from empirical electron density models of the polar
  inter-plume and plume regions, as derived from the ground-based eclipse
  measurements of coronal polarization brightness. These models indicate
  polar plume densities 4-6 times that of the interplume low corona.

---------------------------------------------------------
Title: Electron Heat Conduction in the Solar Transition Region:
    Validity of the Classical Description
Authors: Lie-Svendsen, Øystein; Holzer, Thomas E.; Leer, Egil
1999ApJ...525.1056L    Altcode:
  We have studied the transport of energy in the solar transition region,
  with the aim of finding out whether classical transport theory is
  applicable in this region. We use a test particle approximation,
  where test electrons move in a prescribed, background Maxwellian
  electron-proton plasma. This approximation is validated by comparing
  with the Spitzer-Härm result in the collision-dominated limit,
  where the Spitzer-Härm result should be valid. We find that the test
  particle approximation yields velocity distribution functions in good
  agreement with Spitzer and Härm, and the test particle energy flux
  is only 25% lower than the correct result. Then, applying the model
  to conditions believed to be found in the solar transition region, we
  obtain essentially the same good agreement with the classical result,
  showing that classical transport theory is sufficient to describe heat
  transport in the solar transition region. When the transition region
  pressure (density) is reduced to unrealistically low values, while the
  temperature profile is kept unchanged, a significant fraction of the
  energy flux is carried by nonthermal electrons from the corona. But
  the total energy flux is never larger than the classical Spitzer-Härm
  value. The heat flux is independent of density at high densities (the
  classical result), and decreases monotonically as the transition region
  pressure is reduced.

---------------------------------------------------------
Title: The origin of the high speed solar wind
Authors: Hansteen, Viggo H.; Leer, Egil; Holzer, Thomas E.
1999AIPC..471...17H    Altcode: 1999sowi.conf...17H
  The outflow of coronal plasma into interplanetary space is a
  consequence of the coronal heating process. Therefore the formation
  of the corona and the acceleration of the solar wind should be
  treated as a single problem. The deposition of energy into the corona
  through some mechanical or electromagnetic energy flux is balanced
  by the various sinks available to the corona, and the sum of these
  processes determines the coronal structure, i.e. its temperature and
  density. Heating of the extended solar corona leads to high proton and
  ion temperatures and relatively low electron temperatures. This is due
  to the low heat conductivity in the proton (ion) gas as compared to
  the electrons. To a fairly good approximation we can say that most of
  the energy flux deposited in the protons and ions is lost as kinetic
  and gravitational energy flux in the solar wind flow, whereas a large
  fraction of the energy flux added to the electrons is conducted back
  into the transition region and lost as radiation. In order to drive
  high speed wind most of the energy must be deposited in the ions.

---------------------------------------------------------
Title: Measuring Coronal Mass Ejection Masses from the Low through
    the Outer Corona
Authors: Burkepile, J. T.; Bagenal, F.; Darnell, J. A.; Elmore, D.;
   Holzer, T.; Hundhausen, A. J.; Stanger, A. L.
1999AAS...194.1702B    Altcode: 1999BAAS...31..853B
  Estimates have been made of the masses contained in coronal mass
  ejections (CMEs) in the middle and outer corona [Howard et al. (1985),
  Howard et al. (1986) and Hundhausen et al. (1994)]. It is our goal to
  determine the flow of mass with height as the CME moves outward through
  the corona and to distinguish the outflow of material from brightenings
  due to deflections and compression created by the CMEs motion through
  the ambient coronal material. Coronal mass ejection measurements
  in the low corona are made using the Mauna Loa K-Coronameter. The
  K-Coronameter has recorded a few hundred CMEs that were also visible
  in the Solar Maximum Mission Coronagraph and in the Large Angle and
  Spectrometric Coronagraph experiment (LASCO) that image the middle
  and outer corona. The mass of each CME is plotted as a function of
  height and compared with estimates for the amount of mass swept up
  by a CME moving with average speed through a typical coronal helmet
  streamer. For those events where the classic loop, cavity structure is
  apparent, the masses of the loop front and legs are recorded separately
  to better determine the amount of material propagating outward and
  the amount of material maintained in the legs following the passage of
  the CME. The masses are combined with speeds of the CMEs to determine
  the kinetic energy of the CME as a function of height. As an example
  we report on a CME which occurred on September 9, 1997 and appeared
  over the northwest limb in both the MK3 and LASCO data. The mass of
  the CME appeared to increase from 1.5x10(15) grams in the MK3 field to
  6.2x10(15) grams in the LASCO field of view. The CME was continuing to
  accelerate and the kinetic energy increased by an order of magnitude
  from the low corona value of 2.5x10(30) ergs in MK3 to 2.0x10(31) ergs
  in the LASCO field of view. References: Howard, R.A., N.R. Sheeley,
  Jr., M.J. Koomen, and D.J. Michels, 'Coronal Mass Ejections: 1979-1981',
  (1985), J. Geophys. Res., 90, 8173-8191 Howard, R.A., N.R. Sheeley, Jr.,
  D.J. Michels, M.J. Koomen, ' The Solar Cycle Dependence of Coronal Mass
  Ejections', (1986) in: The Sun and the Heliosphere in Three Dimensions,
  Marsden, R.G. (ed)., 1986, p 107-111 Hundhausen, A.J., A.L. Stanger,
  and S.A. Serbicki,'Mass and Energy Contents of Coronal Mass Ejections:
  SMM Results from 1980 and 1984-1988.', (1994) in: Proc. of the Third
  SOHO Workshop, Estes Park Colorado, p 409.

---------------------------------------------------------
Title: Correction to «Land subsidence caused by the East Mesa
    Geothermal Field, California, observed using SAR interferometry»
Authors: Massonnet, D.; Holzer, T.; Vadon, H.
1998GeoRL..25.3213M    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Understanding the Solar Wind
Authors: Leer, E.; Hansteen, V. H.; Holzer, T. E.
1998cvsw.conf..263L    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: First Results from SWAN Lyman α solar wind mapper on SOHO
Authors: Bertaux, J. L.; Quémerais, E.; Lallement, R.; Kyrölä,
   E.; Schmidt, W.; Summanen, T.; Goutail, J. P.; Berthé, M.; Costa,
   J.; Holzer, T.
1997SoPh..175..737B    Altcode:
  After one year of almost flawless operation on board the SOHO
  spacecraft poised at L1 Lagrange point, we report the main features
  of SWAN observations. SWAN is mainly dedicated to the monitoring of
  the latitude distribution of the solar wind by the Lα method. Maps
  of sky Lα emissions were recorded througout the year. The region of
  maximum emission, located in the upwind hemisphere, deviates strongly
  from the pattern that could be expected from a solar wind constant
  with latitude. It is divided into two lobes by a depression aligned
  with the solar equatorial plane called the Lyα groove already noted
  in 1976 Prognoz data. The north lobe is much brighter than the south
  lobe. These two characteristics can be explained qualitatively by an
  enhanced ionization along the neutral sheet where the slow solar wind
  is concentrated, which results from the higher low-latitude solar wind
  mass flux as measured by Ulysses. The groove is the direct imprint on
  the sky of the enhanced carving by the slow solar wind, at this time of
  solar minimum, when the tilt angle of the neutral sheet is small. The
  question is still pending to predict what will happen with the ascending
  phase of the solar cycle. Observations of comets are briefly mentioned,
  with the ability of SWAN to monitor the H<SUB>2</SUB>O production
  of many comets. Operations of the instrument are briefly described,
  including some instrumental problems which could be solved by software
  modifications sent to the instrument.

---------------------------------------------------------
Title: The Role of Helium in the Outer Solar Atmosphere
Authors: Hansteen, V. H.; Leer, E.; Holzer, T. E.
1997ApJ...482..498H    Altcode:
  We construct models of the outer solar atmosphere comprising the region
  from the mid-chromosphere and into the solar wind in order to study
  the force and energy balance in models with a significant helium
  abundance. The corona is created by dissipation of an energy flux
  from the Sun. The energy flux is lost as radiation from the top of the
  chromosphere and as gravitational and kinetic solar wind energy flux. We
  find that in models with significant ion heating of the extended corona
  most of the energy flux is lost in the solar wind. The ion temperatures
  are higher than the electron temperature in these models, and the
  α-particle temperature is much higher than the proton temperature,
  so there is energy transfer from the α-particle fluid to the protons
  and electrons, but this energy exchange between the different species
  is relatively small. To a fairly good approximation we can say that the
  energy flux deposited in the protons and α-particles is lost as kinetic
  and gravitational energy flux in the proton and α-particle flow. How
  this energy flux is divided between gravitational and kinetic energy
  flux (i.e., how large the particle fluxes and flow speeds are) depends
  upon details of the heating process. We also find that mixing processes
  in the chromosphere play an important role in determining the coronal
  helium abundance and the relative solar wind proton and α-particle
  fluxes. Roughly speaking, we find that the relative α-particle and
  proton fluxes are set by the degree of chromospheric mixing, while
  the speeds are set by the details of the coronal heating process.

---------------------------------------------------------
Title: The Coronal Helium Abundance and the Solar Wind
Authors: Hansteen, Viggo H.; Hassler, Donald M.; Leer, Egil; Holzer,
   Thomas E.; Woods, Thomas N.
1997SPD....28.0154H    Altcode: 1997BAAS...29Q.889H
  The coronal Helium abundance depends on the rate Helium is brought into
  the corona via the transition region from the chromosphere and on the
  rate that Helium is removed from the corona in the Solar wind. Recent
  multi-fluid models of the combined chromosphere, corona, solar wind
  system show that the corona may have a significant Helium abundance;
  perhaps even exceeding 50% of the Hydrogen number density. These models
  also indicate that in order to reproduce the Solar wind at 1AU ions
  (alpha -particles as well as protons) may be required to be the most
  important recipient of the coronal heating process. In these models the
  role of electrons in the energetics of the Solar wind is much reduced
  compared to the standard thermally driven winds. A measurement of the
  coronal Helium abundance will serve to fix these theoretical ideas and
  may give important clues as to mixing processes in the chromosphere as
  well as to coronal heating processes. Consequently, we will discuss the
  current state of observations (i.e. SOHO), and their limitations, as
  well as plans for future observations (i.e. sounding rocket, Spartan).

---------------------------------------------------------
Title: Land subsidence caused by the East Mesa Geothermal Field,
    California, observed using SAR interferometry
Authors: Massonnet, Didier; Holzer, Thomas; Vadon, Hélène
1997GeoRL..24..901M    Altcode:
  Interferometric combination of pairs of synthetic aperture radar
  (SAR) images acquired by the ERS-1 satellite maps the deformation
  field associated with the activity of the East Mesa geothermal plant,
  located in southern California. SAR interferometry is applied to
  this flat area without the need of a digital terrain model. Several
  combinations are used to ascertain the nature of the phenomenon. Short
  term interferograms reveal surface phase changes on agricultural
  fields similar to what had been observed previously with SEASAT radar
  data. Long term (2 years) interferograms allow the study of land
  subsidence and improve prior knowledge of the displacement field, and
  agree with existing, sparse levelling data. This example illustrates
  the power of the interferometric technique for deriving accurate
  industrial intelligence as well as its potential for legal action,
  in cases involving environmental damages.

---------------------------------------------------------
Title: The First 1. 5 Year of Observations from SWAN Lyman-Alpha
    Solar Wind Mapper on SOHO
Authors: Bertaux, J. L.; Quémerais, E.; Lallement, R.; Kyrölä,
   E.; Schmidt, W.; Summanen, T.; Mäkinen, T.; Holzer, T.
1997ESASP.404...29B    Altcode: 1997cswn.conf...29B; 1997soho....5...29B
  No abstract at ADS

---------------------------------------------------------
Title: Coronal Hole Structure and the High Speed Solar Wind
Authors: Holzer, T. E.; Leer, E.
1997ESASP.404...65H    Altcode: 1997cswn.conf...65H; 1997soho....5...65H
  No abstract at ADS

---------------------------------------------------------
Title: Helium in the outer solar atmosphere
Authors: Hansteen, V. H.; Leer, E.; Holzer, T. E.
1997AIPC..385..197H    Altcode: 1997recs.conf..197H
  We construct models of the outer solar atmosphere comprising the
  region from the mid chromosphere and into the solar wind in order
  to study the force and energy balance in models with a significant
  helium abundance. The corona is created by dissipation of an energy
  flux from the Sun. The energy flux is lost as radiation from the
  top of the chromosphere and as gravitational and kinetic solar wind
  energy flux. We find that in models with significant ion heating of the
  extended corona most of the energy flux is lost in the solar wind. The
  ion temperatures are higher than the electron temperature in these
  models, and the α-particle temperature is much higher than the proton
  temperature. Roughly speaking we find that the relative α-particle
  and proton fluxes are set by the degree of chromospheric mixing while
  the speeds are set by the details of the coronal heating process.

---------------------------------------------------------
Title: Acceleration of the Solar Wind
Authors: Holzer, T. E.; Hansteen, V. H.; Leer, E.
1997cwh..conf..239H    Altcode: 2006mslp.conf..239H
  No abstract at ADS

---------------------------------------------------------
Title: The Large-Scale Density Structure of the Solar Corona and
    the Heliospheric Current Sheet
Authors: Guhathakurta, Madhulika; Holzer, Thomas E.; MacQueen, R. M.
1996ApJ...458..817G    Altcode:
  We have investigated the three-dimensional distribution of the
  polarization-brightness product (PB) and then quantitatively
  determined the electron density distribution relative to the
  inferred heliographic current sheet during the declining phase
  of solar cycle 20 (1973-1976). The current sheet is taken as the
  center of the bright, dense structures from combined synoptic
  pB data from ground-based K-coronameter and the white- light
  coronagraph aboard Skylab. Analyses of pB scans as a function of
  minimum distance from the current sheet (θ<SUB>min</SUB>) over the
  radial distance range 1.13 to 5.0 R<SUB>sun</SUB> (from Sun center)
  led to the following new results: (1) a quantitative description
  of pB obtained around the inferred neutral line is given by the
  following equation: <P />pB(p,θ<SUB>min</SUB>) = pB<SUB>p</SUB>(p)
  + [pB<SUB>cs</SUB>(p)-pB<SUB>p</SUB>(p)]e-θmin2/w2(r), <P
  />where p is the shortest distance to the line of sight from
  the Sun center, pB<SUB>cs</SUB>(p) and pB<SUB>p</SUB>(P) are the
  observed polarized brightness at the current sheet and the poles,
  respectively, and w(r) is the half-width of the distribution;
  (2) the electron density obtained by inverting the pB data
  is given by <P />N(r,θ<SUB>mg</SUB>) = N<SUB>p</SUB>(r) +
  [N<SUB>p</SUB>(r)-N<SUB>p</SUB>(r)]e<SUP>-θmg2/w2(r)</SUP>d ,
  <P />where N(r,θ<SUB>mg</SUB>) is the number of free electrons
  per cm<SUP>3</SUP>, N<SUB>cs</SUB>(r) and N<SUB>p</SUB>(r) are the
  electron densities at the current sheet and the poles, respectively,
  and θ<SUB>mg</SUB> is the magnetic latitude. Here θ<SUB>mg</SUB> is
  given by <P />θ<SUB>mg</SUB> = [-cos θ sin α sin (φ-φ<SUB>0</SUB>)
  + sin θ cos α] <P />where θ and φ are heliographic latitude and
  longitude, α is the tilt angle of the dipole axis with the rotation
  axis, and φ<SUB>0</SUB> is the intersection of the heliomagnetic and
  heliographic equators; (3) during the period studied (the last third
  of the solar cycle), the mean pB at the current sheet and above the
  polar holes is approximately independent of the phase of the solar
  cycle; and (4) the organization of pB data about the neutral line
  allows inference of the boundary of the polar coronal holes. <P />The
  usefulness of one-dimensional white-light density constraint in solar
  wind modeling has already been demonstrated by Habbal et al. The
  present three-dimensional model should prove very useful in better
  understanding of the global hydromagnetic structure of the corona
  and the solar wind, relating as it does to the magnetic structure
  of the corona, as opposed to heliocentric coordinates. For example,
  the density model could provide constraints on coronal temperature,
  flow velocity, and magnetic structure subject to a suitable analysis
  of geometric effects, which in turn would provide constraints on energy
  balance in the coronal expansion.

---------------------------------------------------------
Title: Understanding and Predicting Solar-Terrestrial
Relations:Counterpoint and Debate
Authors: Holzer, Thomas E.
1996ASPC...95..408H    Altcode: 1996sdit.conf..408H
  No abstract at ADS

---------------------------------------------------------
Title: SWAN: A Study of Solar Wind Anisotropies on SOHO with Lyman
    Alpha Sky Mapping
Authors: Bertaux, J. L.; Kyrölä, E.; Quémerais, E.; Pellinen, R.;
   Lallement, R.; Schmidt, W.; Berthé, M.; Dimarellis, E.; Goutail,
   J. P.; Taulemesse, C.; Bernard, C.; Leppelmeier, G.; Summanen,
   T.; Hannula, H.; Huomo, H.; Kehlä, V.; Korpela, S.; Leppälä,
   K.; Strömmer, E.; Torsti, J.; Viherkanto, K.; Hochedez, J. F.;
   Chretiennot, G.; Peyroux, R.; Holzer, T.
1995SoPh..162..403B    Altcode:
  On board the SOHO spacecraft poised at L1 Lagrange point, the
  SWAN instrument is mainly devoted to the measurement of large scale
  structures of the solar wind, and in particular the distribution with
  heliographic latitude of the solar wind mass flux. This is obtained from
  an intensity map of the sky Lymanα emission, which reflects the shape
  of the ionization cavity carved in the flow of interstellar H atoms
  by the solar wind. The methodology, inversion procedure and related
  complications are described. The subject of latitude variation of the
  solar wind is shortly reviewed: earlier Lymanα results from Prognoz in
  1976 are confirmed by Ulysses. The importance of the actual value of the
  solar wind mass flux for the equation of dynamics in a polar coronal
  hole is stressed. The instrument is composed of one electronic unit
  commanding two identical Sensor Units, each of them allowing to map
  a full hemisphere with a resolution of 1°, thanks to a two-mirrors
  periscope system. The design is described in some details, and the
  rationale for choice between several variants are discussed. A hydrogen
  absorption cell is used to measure the shape of the interplanetary
  Lymanα line and other Lyman α emissions. Other types of observations
  are also discussed : the geocorona, comets (old and new), the solar
  corona, and a possible signature of the heliopause. The connexion
  with some other SOHO instruments, in particular LASCO, UVCS, SUMER,
  is briefly discussed.

---------------------------------------------------------
Title: Acceleration of the Solar Wind
Authors: Holzer, T. E.
1995SPD....26..905H    Altcode: 1995BAAS...27Q.974H
  No abstract at ADS

---------------------------------------------------------
Title: The Solar Wind and Suprathermal Ion Composition Investigation
    on the Wind Spacecraft
Authors: Gloeckler, G.; Balsiger, H.; Bürgi, A.; Bochsler, P.; Fisk,
   L. A.; Galvin, A. B.; Geiss, J.; Gliem, F.; Hamilton, D. C.; Holzer,
   T. E.; Hovestadt, D.; Ipavich, F. M.; Kirsch, E.; Lundgren, R. A.;
   Ogilvie, K. W.; Sheldon, R. B.; Wilken, B.
1995SSRv...71...79G    Altcode:
  The Solar Wind and Suprathermal Ion Composition Experiment (SMS)
  on WIND is designed to determine uniquely the elemental, isotopic,
  and ionic-charge composition of the solar wind, the temperatures
  and mean speeds of all major solar-wind ions, from H through Fe,
  at solar wind speeds ranging from 175 kms<SUP>-1</SUP> (protons)
  to 1280 kms<SUP>-1</SUP> (Fe<SUP>+8</SUP>), and the composition,
  charge states as well as the 3-dimensional distribution functions of
  suprathermal ions, including interstellar pick-up He<SUP>+</SUP>, of
  energies up to 230 keV/e. The experiment consists of three instruments
  with a common Data Processing Unit. Each of the three instruments
  uses electrostatic analysis followed by a time-of-flight and, as
  required, an energy measurement. The observations made by SMS will make
  valuable contributions to the ISTP objectives by providing information
  regarding the composition and energy distribution of matter entering
  the magnetosphere. In addition SMS results will have an impact on
  many areas of solar and heliospheric physics, in particular providing
  important and unique information on: (i) conditions and processes in
  the region of the corona where the solar wind is accelerated; (ii) the
  location of the source regions of the solar wind in the corona; (iii)
  coronal heating processes; (iv) the extent and causes of variations in
  the composition of the solar atmosphere; (v) plasma processes in the
  solar wind; (vi) the acceleration of particles in the solar wind; and
  (vii) the physics of the pick-up process of interstellar He as well
  as lunar particles in the solar wind, and the isotopic composition of
  interstellar helium.

---------------------------------------------------------
Title: Coupling of the coronal He abundance to the solar wind
Authors: Hansteen, V. H.; Leer, E.; Holzer, T. E.
1994SSRv...70..347H    Altcode:
  Models of the transition region — corona — solar wind system are
  investigated in order to find the coronal helium abundance and to
  study the role played by coronal helium in controlling the the solar
  wind proton flux. The thermal force on α-particles in the transition
  region sets the flow of helium into the corona. The frictional coupling
  between α-particles and protons and/or the electric polarization field
  determines the proton flux in the solar wind as well as the fate of
  the coronal helium content.

---------------------------------------------------------
Title: Coupling of the Coronal Helium Abundance to the Solar Wind
Authors: Hansteen, Viggo H.; Leer, Egil; Holzer, Thomas E.
1994ApJ...428..843H    Altcode:
  Models of the transition region-corona-solar wind system are
  investigated in order to find the coronal helium abundance and to
  study the role played by coronal helium in controlling the solar wind
  proton flux. The thermal force on alpha-particles in the transition
  region sets the flow of helium into the corona. The frictional coupling
  between alpha-particles and protons and/or the electric polarization
  field determines the proton flux in the solar wind as well as the fate
  of the coronal helium content. The models are constructed by solving
  the time-dependent population and momentum equations for all species
  of hydrogen and helium in an atmosphere with a given temperature
  profile. Several temperature profiles are considered in order to very
  the roles of frictional coupling and electric polarization field in the
  solar wind, and the thermal force in the transition region. Steady-state
  solutions are found for coronae with a hydrogen flux at 1 AU of 1.0
  x 10<SUP>9</SUP>/cm<SUP>2</SUP>/sec or larger. For coronae with
  lower hydrogen fluxes, the helium flux into the corona is larger
  than the flux 'pulled out' by the solar wind protons, and solutions
  with increasing coronal helium content are found. The timescale for
  forming a helium-filled corona, that may allow for a steady outflow,
  is long compared to the mixing time for the corona.

---------------------------------------------------------
Title: Density Structure inside a Polar Coronal Hole
Authors: Guhathakurta, M.; Holzer, T. E.
1994ApJ...426..782G    Altcode:
  Analysis of white-light coronagraph observations of a polar coronal
  hole during 1973 June 29 - July 13 led Munro and Jackson (1977)
  to infer that the density inside the hole varied as a function of
  heliocentric radial distance, r, and colatitude theta. However recent
  analysis of the white-light data during 1973 December 3 - 1974 January
  24, by Guhathakurta et al. (1993) indicates that the density inside
  a polar coronal hole, within limits of uncertainties inherent in the
  coronal white-light observations, can equally well be described as a
  function of r only. In this study we reexamine the data from the Munro
  and Jackson period and draw the conclusion that within the limits of
  observational uncertainties, electron density in the polar coronal
  hole is independent of magnetic latitude and longitude.

---------------------------------------------------------
Title: Modelling the low-latitude boundary layer with reconnection
    entry
Authors: Song, P.; Holzer, T. E.; Russell, C. T.; Wang, Z.
1994GeoRL..21..625S    Altcode:
  We develop a one-dimensional Low-Latitude Boundary Layer (LLBL) model
  for northward IMF. The boundary layer in this model is uniform in the
  direction normal to the magnetopause, a “plateautype” boundary
  layer. The boundary layer motion is decoupled from the magnetosheath
  motion and driven by the plasma pressure associated with the incoming
  solar wind plasma near local noon, which has become entrained on closed
  field lines as a result of reconnection in the cusp region. Dissipation
  in the ionosphere at the feet of the boundary layer field lines opposes
  this motion. There are two physical solutions for the model. In one, the
  boundary layer reaches a terminal velocity in the tail as the boundary
  layer plasma effectively joins the solar wind flow. In the other
  solution, the flow is nearly stopped in the far tail. In combination
  with other mechanisms, this latter solution may correspond to the
  case in which the boundary layer plasma participates in magnetospheric
  convection and returns sunward. The density, velocity, and thickness
  as functions of distance from local noon are studied, assuming that
  the magnetopause has elliptical shape and the magnetospheric field
  is dipolar.

---------------------------------------------------------
Title: Gasdynamic models of the solar wind/interstellar medium
    interaction
Authors: Steinolfson, R. S.; Pizzo, V. J.; Holzer, T.
1994GeoRL..21..245S    Altcode:
  The interaction between the solar wind and the interstellar medium
  is modeled self-consistently using numerical solutions of the
  time-dependent gasdynamic equations in spherical and cylindrical
  coordinates. For the results presented here it is assumed that the
  solar system moves through the surrounding medium with a supersonic
  velocity. After an initial (nonequilibrium) state has been specified,
  the numerical solution follows the evolution in time until the
  interaction relaxes to a dynamic equilibrium. As would be expected, the
  solutions show the formation of a bow shock upstream of the traveling
  solar system to deflect the interstellar plasma around the cavity
  created by the solar wind. A termination shock also forms to slow
  and compress the solar wind plasma. For the simulation in spherical
  coordinates, the downstream portion of the termination shock reaches
  equilibrium more than three times further from the Sun than the
  equilibrium distance to the termination shock on the upstream side.

---------------------------------------------------------
Title: Neutral Hydrogen in the Solar Wind Acceleration Region
Authors: Olsen, Espen Lyngdal; Leer, Egil; Holzer, Thomas E.
1994ApJ...420..913O    Altcode:
  Observation of solar Ly alpha radiation scattered by coronal neutral
  hydrogen atoms can be used to investigate the acceleration region of the
  solar wind. In this paper we focus on the use of these observations to
  study Alfven waves, which can accelerate the solar wind plasma to flow
  speeds observed in high-speed streams if their amplitude at the coronal
  base is 20 km/s or larger. The wave amplitude is then larger than the
  proton thermal speed in the outer corona, so that the mean proton speed
  (averaged over a wave period) is significantly larger than the proton
  thermal speed. For low-frequency wave the hydrogen atoms follow the
  proton motion in the waves, while for higher frequencies the protons
  move relative to the neutrals. Nevertheless, in the higher frequency
  case, the rates for charge exchange and recombination are high enough
  to broaden the velocity distribution function of neutral hydrogen. Both
  the wave motion of the hydrogen atoms in low-frequency Alfven waves
  and the 'heating' by higher frequency waves lead to a broadening of
  the scattered solar Ly alpha line. For coronal base amplitudes of 20
  km/s, the line broadening increases with heliocentric distance beyond
  4-5 solar radii.

---------------------------------------------------------
Title: The SPARTAN 201-1 White Light Coronagraph Experiment
Authors: Guhathakurta, M.; Fisher, R. R.; Holzer, T. E.; Sime, D. G.
1993BAAS...25Q1213G    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Diffusion Effects on the Helium Abundance of the Solar
    Transition Region and Corona
Authors: Hansteen, Viggo H.; Holzer, Thomas E.; Leer, Egil
1993ApJ...402..334H    Altcode:
  The diffusion of helium in the solar transition region is
  studied by solving the mass and momentum conservation equations
  for a hydrogen-helium plasma given a representative temperature
  profile. Steady state solutions show that two distinct atmospheres
  may result. In cases where the thermal force on alpha-particles is
  balanced by the partial pressure gradient force, helium is the dominant
  coronal species. On the other hand, if it is the frictional force
  between protons and alpha-particles which balances the thermal force on
  alpha-particles then hydrogen is the major coronal component. In order
  to explore which of these solutions are attainable within reasonable
  time scales, the time-dependent equations are solved, starting from
  an initial state with a uniform helium abundance of 10 percent. The
  atmosphere as a whole is close to hydrostatic equilibrium, but due the
  thermal forces the individual elements are not. This force inbalance
  leads to a differential flow between species. It is found that this
  differential flow leads to a significant enhancement of the coronal
  helium abundance. Even for the relatively shallow temperature gradient
  used the helium abundance in the lower corona increases to 30 percent
  over a 24 hr period.

---------------------------------------------------------
Title: Dynamical polar wind and its response to kinetic ion heating
Authors: Chen, Margaret W.; Ashour-Abdalla, Maha; Holzer, Thomas E.
1992JGR....9719433C    Altcode:
  The dynamic polar wind and its response to kinetic ion heating are
  examined in this paper. We used a time-dependent hydrodynamic polar
  wind code to study the dynamic flow characteristics of an H<SUP>+</SUP>
  and O<SUP>+</SUP> polar wind from 200 km to ~6-7 R<SUB>E</SUB>. We
  found that the polar wind ion relaxation times are comparable to the
  time required for the ions to propagate at the ion speed of sound over
  the altitudinal range considered. Although there may be large transient
  O<SUP>+</SUP> fluxes lasting ~15 min during the early stage of expansion
  of the unheated polar wind, these fluxes cannot be sustained because
  of the large O<SUP>+</SUP> gravitational potential. We subsequently
  studied how polar wind ion heating affects the ion outflow. Our previous
  work showed that O<SUP>+</SUP> and H<SUP>+</SUP> polar wind ions can
  become heated use to ion beam instabilities in the polar cap region. <P
  />We incorporate these kinetic effects into our hydrodynamic model by
  specifying ion temperature profiles in the ion momentum equations. Two
  limiting cases were considered, (1) preferential O<SUP>+</SUP> and
  (2) preferential H<SUP>+</SUP> ion heating. We found that ion heating
  does not have much effect on the escape of H<SUP>+</SUP> ions because
  of the limiting nature of the H<SUP>+</SUP> escape fluxes. However,
  O<SUP>+</SUP> heating can sustantially increase the upward O<SUP>+</SUP>
  pressure gradient in the heating region. This leads to increased
  O<SUP>+</SUP> ion escape from the polar ionosphere. Thus O<SUP>+</SUP>
  heating is a viable explanation for the unexpectedly large O<SUP>+</SUP>
  fluxes which are frequently observed in the polar magnetosphere.

---------------------------------------------------------
Title: A Parameter Study of the Two-Fluid Solar Wind
Authors: Sandbaek, Ornulf; Leer, Egil; Holzer, Thomas E.
1992ApJ...400..362S    Altcode:
  A two-fluid model of the solar wind was introduced by Sturrock and
  Hartle (1966) and Hartle and Sturrock (1968). In these studies the
  proton energy equation was integrated neglecting the heat conductive
  term. Later several authors solved the equations for the two-fluid
  solar wind model keeping the proton heat conductive term. Methods
  where the equations are integrated simultaneously outward and inward
  from the critical point were used. The equations were also integrated
  inward from a large heliocentric distance. These methods have been
  applied to cases with low coronal base electron densities and high
  base temperatures. In this paper we present a method of integrating
  the two-fluid solar wind equations using an iteration procedure where
  the equations are integrated separately and the proton flux is kept
  constant during the integrations. The technique is applicable for a
  wide range of coronal base densities and temperatures. The method is
  used to carry out a parameter study of the two-fluid solar wind.

---------------------------------------------------------
Title: Solar wind from a corona with a large helium abundance
Authors: Leer, Egil; Holzer, Thomas E.; Shoub, Edward C.
1992JGR....97.8183L    Altcode:
  Observations of quasi-steady high-speed solar wind streams show
  that the proton mass flux density at 1 AU is remarkably constant,
  varying by less than 10% over long time periods. The observations are
  problematic, for simple theoretical models predict that the proton mass
  flux density is a sensitive function of the coronal base temperature,
  which is not expected to be unvarying to the degree required by the
  observations. In this paper we investigate the possibility that the
  presence of alpha particles in the coronal base region can reduce the
  sensitivity of the proton mass flux to base temperature. The equations
  of mass and momentum conservation are solved for electrons, protons,
  and alpha particles using a variety of assumed temperature profiles
  for each species. A wide range of base conditions are considered. We
  find that for an alpha particle to proton density ratio at the base
  as small as 10%, alpha particles can reduce the sensitivity of the
  proton mass flux density to variations in the base temperature. We
  also study the effects of enhanced collisional coupling and of Alfvén
  waves on the flux of protons and alpha particles. As an aid to future
  observational determination of the alpha particle density in the corona,
  we present calculations of the intensities of the resonantly scattered
  lines HeII λ304 and HI λ1216 for selected models.

---------------------------------------------------------
Title: A Comparison of the Reduced and Approximate Systems for the
    Time Dependent Computation of the Polar Wind and Multiconstituent
    Stellar Winds
Authors: Browning, G. L.; Holzer, T. E.
1992JGR....97.1289B    Altcode:
  The “reduced” system of equations commonly used to describe
  the time evolution of the polar wind and multiconstituent stellar
  winds is derived from the equations for a multispecies plasma with
  known temperature profiles by assuming that the electron thermal
  speed approaches infinity. The reduced system is proved to have
  unbounded growth near the sonic point of the protons for many of the
  standard parameter cases. For the same parameter cases, however, the
  unmodified system (from which the reduced system is derived) exhibits
  growth in some of the Fourier modes, but this growth is bounded. (A
  physical explanation is provided for the unbounded growth in the
  reduced system and the bounded growth in the unmodified system.) An
  alternate system (the “approximate” system) in which the electron
  thermal speed is slowed down is introduced. The approximate system
  retains the mathematical behavior of the unmodified system and can be
  shown to accurately describe the smooth solutions of the unmodified
  system. The approximate system has a number of other advantages over
  the reduced system. For example, when the proton speed approaches the
  electron sound speed, the reduced system becomes inaccurate. Also, for
  three-dimensional flows the correct reduced system requires the solution
  of an elliptic equation, while the approximate system is hyperbolic
  and only requires a time step approximately 1 order of magnitude less
  than the reduced system. Numerical solutions from models based on the
  two systems are compared with each other to illustrate these points.

---------------------------------------------------------
Title: A two-fluid model of the solar wind
Authors: Sandbaek, O.; Leer, E.; Holzer, T. E.
1992sws..coll...95S    Altcode:
  A method is presented for the integration of the two-fluid
  solar-wind equations which is applicable to a wide variety of coronal
  base densities and temperatures. The method involves proton heat
  conduction, and may be applied to coronal base conditions for which
  subsonic-supersonic solar wind solutions exist.

---------------------------------------------------------
Title: The Interstellar Probe: A Frontier Mission to the Heliospheric
    Boundary and Interstellar Space
Authors: Holzer, T. E.; Mewaldt, R. A.; Neugebauer, M.
1991ICRC....2..535H    Altcode: 1991ICRC...22b.535H
  No abstract at ADS

---------------------------------------------------------
Title: The Effects of Mass Flow on the Temperature and Abundance
    Structure of the Solar Transition Region
Authors: Woods, D. T.; Holzer, Thomas E.
1991ApJ...375..800W    Altcode:
  The density and temperature structure of a multicomponent plasma
  consisting of electrons, protons, ionized helium, and a trace minor
  ion species are computed. The equations of force and energy balance
  for this model are developed and solved. It is found that in the case
  of downflows the minor ion temperature can be significantly hotter
  than the electron temperature, and significant abundance enhancements
  are possible due to the slowdown of the minor species from the effect
  of the thermal force. A simple physical picture of the source of the
  thermal force is given.

---------------------------------------------------------
Title: Report of the cosmic and heliospheric panel
Authors: Mewaldt, Richard A.; Mason, Glenn M.; Barnes, Aaron; Binns,
   W. Robert; Burlaga, Leonard F.; Cherry, Michael L.; Holzer, Thomas E.;
   Jokipii, J. R.; Jones, Vernon; Ling, James C.
1991spsi....1...15M    Altcode:
  The Cosmic and Heliospheric Branch proposes a bold new program for
  the years 1995 to 2010 that is centered on the following two themes:
  (1) the global heliosphere and interstellar space; and (2) cosmic
  particle acceleration and the evolution of matter. Within these major
  themes are more specific goals that have been studied and continue to be
  examined for a better understanding of their processes. These include:
  origin, structure, and evolution of the solar wind; interaction
  of the heliosphere, the solar wind, and the interstellar medium;
  fundamental microscopic and macroscopic plasma processes; acceleration
  and transport of energetic particles; and the origin and evolution
  of matter. Finally, the report summarizes a wide variety of proposed
  small and large space missions.

---------------------------------------------------------
Title: Some Theoretical Topics for RISE
Authors: Holzer, T.
1991BAAS...23.1040H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The solar wind mass flux problem.
Authors: Leer, E.; Holzer, T. E.
1991AnGeo...9..196L    Altcode: 1991AnG.....9..196L
  The variation of the proton flux with coronal temperature and density
  in thermally driven solar wind models is discussed. It is shown that
  the rapid increase of the proton flux with increasing temperature can
  be reduced by adiabatic cooling of the expanding plasma. A significant
  coronal helium abundance can also act as a "regulator" for the solar
  wind proton flux.

---------------------------------------------------------
Title: Stellar wind acceleration.
Authors: Holzer, T. E.
1991cwlt.conf....3H    Altcode:
  A framework is developed for understanding several important aspects
  of the acceleration of stellar winds by considering certain simple
  implications of mass, momentum, and energy balance in a steady,
  spherically symmetric flow. Using this framework, it is possible to
  examine a number of physical mechanisms thought to play significant
  roles in driving winds ranging from the solar wind to massive, low-speed
  winds from cool stars to massive, high-speed winds from hot stars.

---------------------------------------------------------
Title: Standing Shocks in the Inner Solar Wind
Authors: Leer, Egil; Holzer, Thomas E.
1990ApJ...358..680L    Altcode:
  It has been pointed out by several authors that the equations describing
  rapidly diverging flow in the solar wind and in related astrophysical
  systems allow for solutions with standing shocks in the acceleration
  region of the flow. The range of plasma and flow-geometry parameters
  that allow for such solutions are investigated. It is shown that, for
  reasonable geometries, shocks can occur only for a very narrow range
  of flow parameters in the case of the solar wind. Similar results can
  be expected for related astrophysical systems.

---------------------------------------------------------
Title: Lower Solar Chromosphere-Corona Transition Region. II. Wave
    Pressure Effects for a Specific Form of the Heating Function
Authors: Woods, D. Tod; Holzer, Thomas E.; MacGregor, Keith B.
1990ApJS...73..489W    Altcode:
  Lower transition region models with a balance between mechanical heating
  and radiative losses are expanded to include wave pressure effects. The
  models are used to study the simple damping length form of the heating
  function. The results are compared to the results obtained by Woods et
  al. (1990) for solutions in the lower transition region. The results
  suggest that a mixture of fast-mode and slow-mode waves may provide
  the appropriate heating mechanism in the lower transition region, with
  the decline in effective vertical wave speed caused by the refraction
  and eventual total reflection of the fast-mode wave resulting from
  the decreasing atmospheric density.

---------------------------------------------------------
Title: Lower Solar Chromosphere-Corona Transition
    Region. I. Theoretical Models with Small Temperature Gradients
Authors: Woods, D. Tod; Holzer, Thomas E.; MacGregor, Keith B.
1990ApJ...355..295W    Altcode:
  A study of transition region models including the effects of classical
  thermal conduction, heating, and radiative cooling is carried out
  with attention directed toward the problem of understanding the
  observed emission in the lower transition region. It is found that the
  observationally inferred emission measure curve implies a near-balance
  between heating and radiative cooling in the lower transition region,
  and that the presence of strong hydrogen Ly-alpha cooling leads to
  the existence of singularities in the solutions of the force balance
  and energy balance equations when such a near-balance between heating
  and cooling is assumed. These singularities place strong constraints
  on the nature of viable models of the lower transition region and must
  be considered when Ly-alpha cooling is important. Previously suggested
  explanations of the observed emission from the lower transition region
  are considered in the context of the results of the present study,
  and conditions for the applicability of these suggested explanations
  are discussed.

---------------------------------------------------------
Title: Lower Solar Chromosphere-Corona Transition
    Region. III. Implications of the Observed Quiet-Sun Emission Measure
    Including Wave Pressure Effects
Authors: Woods, D. Tod; Holzer, Thomas E.; MacGregor, Keith B.
1990ApJ...355..309W    Altcode:
  The observed form of the emission measure (EM) is used as a function
  of temperature to infer the wave energy flux density and pressure
  throughout the lower transition region (TR). This procedure eliminates
  the need for specifying how the wave energy flux density is damped and
  addresses the question of whether there is any form of the mechanical
  heating associated with the degradation of an upward traveling wave
  energy flux density which is consistent with the observed EM and other
  observational constraints for the quiet sun. It is found that the
  observed form of the EM curve is incompatible with waves traveling
  vertically at the sound speed, regardless of any filling factor
  arguments. The same conclusion also applies to waves traveling at
  the Alfven speed, unless it is assumed that the emission in lower TR
  lines originates solely from small, spatially unresolved regions of
  large magnetic field strength (100 G), which cover a small fraction
  (filling factors of 1 percent) of the solar surface.

---------------------------------------------------------
Title: Multi-Species Treatment of Mass Flow Through the Solar
    Transition Region
Authors: Woods, D. T.; Holzer, T. E.
1990BAAS...22..795W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The solar probe mission
Authors: Feldman, W. C.; Anderson, J.; Bohlin, J. D.; Burlaga, L. F.;
   Farquhar, R.; Gloeckler, G.; Goldstein, B. E.; Harvey, J. W.; Holzer,
   T. E.; Jones, W. V.; Kellogg, P. J.; Krimigis, S. M.; Kundu, M. R.;
   Lazarus, A. J.; Mellott, M. M.; Parker, E. N.; Rosner, R.; Rottman,
   G. J.; Slavin, J. A.; Suess, S. T.; Tsurutani, B. T.; Woo, R. T.;
   Zwickl, R. D.
1990AIPC..203..101F    Altcode: 1990pacr.rept..101F
  The Solar Probe will deliver a 133.5 kg science payload into a 4 Rs
  perihelion solar polar orbit (with the first perihelion passage in 2004)
  to explore in situ one of the last frontiers in the solar system-the
  solar corona. This mission is both affordable and technologically
  feasible. Using a payload of 12 (predominantly particles and
  fields) scientific experiments, it will be possible to answer many
  long-standing, fundamental problems concerning the structure and
  dynamics of the outer solar atmosphere, including the acceleration,
  storage, and transport of energetic particles near the Sun and in the
  inner (&lt;65 Rs) heliosphere.

---------------------------------------------------------
Title: Slow shocks in an open magnetic field near the sun
Authors: Hu, You-Qiu; Zhu, Zhong-Wei; Hundhausen, A. J.; Holzer,
   T. E.; Low, B. C.
1990SCSMP..33..332H    Altcode:
  A numerical study on the formation of the slow shock in an open
  magnetic field due to the motion of a coronal mass ejection driven by
  a magnetic flux eruption from below the corona is presented. The slow
  shock obtained in the numerical model is characterized by a limited
  latitudinal extent and a slightly flattened shape. It is determined
  that a fast-mode wave always coexists and interacts with the medium
  ahead of the slow shock and deflects the background magnetic field
  to create a rarefaction ahead of the slow shock and a compression in
  the flank. Thus, these effects have a significant influence on the
  geometry and features of the slow shock.

---------------------------------------------------------
Title: Line Broadening of MG X lambda lambda 609 and 625 Coronal
    Emission Lines Observed above the Solar Limb
Authors: Hassler, Donald M.; Rottman, Gary J.; Shoub, Edward C.;
   Holzer, Thomas E.
1990ApJ...348L..77H    Altcode:
  A University of Colorado sounding rocket experiment on March 17, 1988,
  provided high-resolution EUV spectra along a solar diameter and out
  to 1.2 solar radius with spatial resolution of 20 x 60 arcsec. Each
  spectrum contains transition region and coronal emission lines in
  the wavelength range 605-635 A and 1210-1270 A, including the emission
  lines Mg X 609 and 625 A, Fe XII 1242 A, O V 629 A, N V 1238 and 1242 A,
  corresponding to a wide range of temperatures of formation. Increased
  line broadening is observed above the limb for all lines, and this
  effect is illustrated by presenting observed line widths as a function
  of height above the limb for the higher temperature lines Mg X 609
  and 625 A. On the basis of calculations, the most likely cause of
  the increased broadening above the limb appears to be the presence of
  hydromagnetic waves in the corona.

---------------------------------------------------------
Title: Interaction between the solar wind and the interstellar medium.
Authors: Holzer, Thomas E.
1989ARA&A..27..199H    Altcode:
  The basic dynamical interaction between the solar wind and the
  interstellar medium involves the relaxation toward pressure equilibrium
  between the solar and interstellar magnetized plasmas. This interaction
  leads to the formation of a cavity in the interstellar medium carved
  out by the solar plasma, which we refer to as the heliosphere. It
  is not difficult to determine what heliospheric and interstellar
  parameters are likely to be important in the interaction between the
  solar wind and the interstellar medium, and the author provides an
  overview of the observationally inferred values of these parameters,
  including the uncertainties in the inferences. Then, he examines from a
  theoretical point of view the basic physical processes that are likely
  to be important in this interaction, and he concludes by combining
  this theoretical information with the observational information in
  an effort to develop the currently most likely overall picture of the
  heliosphere that is shaped by the local interstellar medium.

---------------------------------------------------------
Title: SWAN: A study of solar wind anisotropies
Authors: Bertaux, J. L.; Pellinen, R.; Chassefiere, E.; Dimarellis,
   E.; Goutail, F.; Holzer, T. E.; Kelha, V.; Korpela, S.; Kyrola, E.;
   Lallement, R.
1988sohi.rept...63B    Altcode:
  The SWAN (solar wind anisotropies) Lyman photometer project is
  described. It will map the interplanetary hydrogen emission every
  other day. From these sky maps, the latitude distribution of the solar
  wind mass flux from equator to pole can be measured, as well as the
  variation of this distribution. Solar wind mass flux at high latitude
  is a key boundary condition to the dynamics of the expansion of the
  solar wind, particularly in the coronal holes, and correlatives studies
  conducted with other SOHO (solar and heliospheric observatory) coronal
  instruments. Secondary objectives include the monitoring of known
  comets, the possible discovery of new comets, and coronal observations.

---------------------------------------------------------
Title: Line Broadening of Transition Region and Coronal Emission
    Lines Observed Above the Solar Limb
Authors: Hassler, D. M.; Rottman, G. J.; Holzer, T. E.
1988BAAS...20R1008H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The solar coronal mass ejection of 20 21 November, 1973
Authors: MacQueen, R. M.; Holzer, T. E.
1988SoPh..116..349M    Altcode:
  The coronal transient event of 20-21 November is unusual in that its
  appearance is distinctly non-loop-like; rather, the transient resembles
  a confined ray or fan-like volume. Studies of the distribution of the
  coronal material with time indicate that this is a mass ejection event,
  involving about 1 × 10<SUP>15</SUP> g of material from the lower
  corona. Analysis of the polarization signal of the event suggests that
  the event is associated with chromospheric activity in a region near
  longitude E68. The observed properties (distributions in brightness
  and polarization) of the transient are compared with the properties
  of a well-studied event of typical loop-like appearance, but rotated
  to simulate an `edge-on' appearance; the differences suggest that
  the 20-21 November event is not such an edge-on, loop-like transient,
  but rather is most simply described as an axisymmetric-cylindrical or
  conical volume, the boundaries of which remain constant over the events'
  lifetime. On this basis, the variation of the transient spatial density
  with height and the variation of density with time can be specified
  rather more certainly than for previously-studied coronal mass ejection
  events. Densities are found to range from 3 × 10<SUP>−16</SUP>
  g cm<SUP>−3</SUP> at 2.1 R<SUB>⊙</SUB> heliocentric height early
  in the event to 1 × 10<SUP>−18</SUP> g cm<SUP>−3</SUP> at 4.0
  R<SUB>⊙</SUB> late in the event. Typical temporal variations of the
  ejected material (at a given heliocentric height) are found to be on the
  order of 10<SUP>−18</SUP> g cm<SUP>−3</SUP> s<SUP>−1</SUP>. The
  mass and momentum balance in the event have been estimated from the
  observed parameters, employing a multiparameter approach. We find that a
  model with modest mass flux typified by material speed u<SUB>0</SUB> ≲
  50 km s<SUP>−1</SUP> and a near balance between the event's pressure
  gradient force and gravity — with possibly a small hydromagnetic
  wave contribution to the total pressure — is consistent with the
  observations. The kinetic energy of the event, determined from the
  motion of the center of mass of the ejected material, is only about
  10<SUP>26</SUP> ergs, and thus is the smallest for any solar mass
  ejection studied to date.

---------------------------------------------------------
Title: Interaction Between the Solar Wind and the Interstellar Medium
Authors: Holzer, T. E.
1988BAAS...20..740H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Drawing inferences about solar wind acceleration from coronal
    minor ion observations
Authors: Esser, Ruth; Holzer, Thomas E.; Leer, Egil
1987JGR....9213377E    Altcode:
  A parameter study is designed and carried out to illustrate the physical
  effects that can be studied through analysis and interpretation of
  coronal minor ion spectral line observations. It is shown that minor
  ion line width, together with the coronal Lyα line width and coronal
  white light observations, can yield important information concerning the
  transport and dissipation of energy carried outward from the coronal
  base by hydromagnetic waves. Although it is difficult to infer minor
  ion velocities through the Doppler dimming technique, the application
  of this technique using both radiatively and collisionally excited
  lines can provide constraints on the acceleration of coronal minor
  ions. It is concluded tha the observation of coronal minor ion spectral
  lines represents an important component of a concerted observational
  approach to the solar wind acceleration problem. It must be emphasized,
  however, that the measurement of line widths is the most important
  coronal minor ion observation to obtain.

---------------------------------------------------------
Title: Do slow shocks precede some coronal mass ejections?
Authors: Hundhausen, A. J.; Holzer, T. E.; Low, B. C.
1987JGR....9211173H    Altcode:
  The observed speeds of coronal mass ejections are often below the
  estimated Alfvén speed but above the sound speed for the background
  solar corona. This suggets that slow magnetohydrodynamic shocks may form
  as mass ejections sweep through the corona. We argue on the basis of
  the Rankine-Hugoniot relations and the propagation of small-amplitude
  slow mode waves that the shape of a slow shock front would be flattened
  (with respect to a sun-centered sphere) or perhaps even concave outward
  (from the sun) and thus present a very different appearance from the
  fast coronal shock waves that have been commonly modeled as wrapping
  around a mass ejection. The region behind a slow shock front standing
  just off the top of a coronal mass ejection would extend well out
  beyond the visible flanks of the ejection. The deflections of coronal
  structures that are commonly observed well outside of these flanks
  (and which are inconsistent with a fast shock wrapped around the mass
  ejection) are consistent with the presence of the slow shock, whether
  they lie in the enlarged postshock region or in a region still further
  beyond. Although the flattering of the tops of some mass ejections
  suggests our proposed slow shock configuration, a true test of its
  existence awaits formulation of quantitative models and detailed
  comparison with observations.

---------------------------------------------------------
Title: Book Review - Physics of the Sun
Authors: Sturrock, P. A.; Holzer, T. E.; Mihalas, D. M.; Ulrich,
   R. K.; Carson, T. R.
1987Obs...107..173S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Shallow Temperature Gradient Solutions and Wave Pressure
    Effects in the Lower Transition Region
Authors: Woods, D. T.; MacGregor, K. B.; Holzer, T. E.
1987BAAS...19Q.937W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Acceleration of Stellar Winds (R)
Authors: Holzer, T. E.
1987sowi.conf....3H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Mathematical descriptions and physical effects of the classical
    viscosity in the solar wind near the sector boundaries.
Authors: Zhao, X. -P.; Holzer, T. E.
1987AcGSn..30..219Z    Altcode:
  The questions existing in both the formulas of the radial viscous
  force and heating and the formula of the corrected viscous stress by
  the magnetic field in the solar wind viscous models are proposed. The
  various viscous formulas for the radial and spherical-symmetric plasma
  flow in the Parker's spiral configuration of the interplanetary magnetic
  field have been derived.

---------------------------------------------------------
Title: Theory of winds from cool stars.
Authors: Holzer, Thomas E.
1987IAUS..122..289H    Altcode:
  The goal of this paper is to provide a framework for thinking about the
  various physical processes that may play significant roles in driving
  the massive winds of cool, low-gravity stars. First, some general
  theoretical considerations involving mass, momentum, and energy balance
  are discussed. Next, the value of the solar wind as an analog for these
  late-type stellar winds and for related astrophysical flows is briefly
  examined. Finally, four specific mass-loss mechanisms are discussed,
  and the possible importance of each of these mechanisms for massive
  winds from cool, low-gravity stars is evaluated.

---------------------------------------------------------
Title: Book-Review - Physics of the Sun - VOL.1 - the Solar
    Interior - VOL.2 - the Solar Atmosphere - VOL.3 - Astrophysics and
    Solar-Terrestrial Relations
Authors: Sturrock, P. A.; Holzer, T. E.; Mihalas, D. M.; Ulrich, R. K.
1987ApL....25..267S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Sixth International Solar Wind Conference
Authors: Pizzo, V. J.; Holzer, T.; Sime, D. G.
1987sowi.conf.....P    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Book-Review - Physics of the Sun - V.I - the Solar Interior
    - V.II - the Solar Atmosphere - V.III - Astrophysics and Solar /
    Terrestrial Relations
Authors: Sturrock, P. A.; Holzer, T. E.; Mihalas, D. M.; Ulrich,
   R. K.; Parker, E. N.
1986Natur.323..210S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Solar wind expansion in a polar coronal hole: Inferences from
    coronal white light and interplanetary Lyman alpha observations
Authors: Lallement, R.; Holzer, T. E.; Munro, R. H.
1986JGR....91.6751L    Altcode:
  Analysis of white light coronagraph observations of a polar
  coronal hole led Munro and Jackson (1977) to infer large solar wind
  speeds in the coronal hole and a consequent need for substantial
  energy addition to the outflow well above the coronal base. Recent
  interplanetary Lyman α observations by Kumar and Broadfoot (1979)
  and Lallement et al. (1985) indicate that the solar wind mass flux from
  well-developed polar coronal holes may be considerably less than that
  typically observed in situ near the ecliptic plane. A reexamination
  of the Munro and Jackson analysis, with attention given both to the
  inferences drawn from the interplanetary Lyman α observations and to
  the uncertainties inherent in the coronal white light observations,
  leads to conclusions significantly different from those drawn by
  Munro and Jackson. Specifically, the coronal observations are found
  to be consistent not only with the high flow speeds and substantial
  energy addition inferred by Munro and Jackson, but also with much lower
  flow speeds and the absence of any significant energy addition in the
  region observed. This removal of definite observational confirmation
  of substantial energy addition to the coronal expansion between 1
  R<SUB>S</SUB> and 5 R<SUB>S</SUB> has important implications for our
  understanding of energy balance in the solar wind.

---------------------------------------------------------
Title: Reexamination of the viscous effect in the solar wind.
Authors: Zhao, X. -F.; Holzer, T. E.
1986ChJSS...6Q...1Z    Altcode:
  The Helios observations of the plasma and magnetic field in the
  high-speed solar wind streams between 1 AU and 0.3 AU are used to
  examine the radial distribution of the various forces exerted on the
  streams. It is shown that the classical expression of the viscosity
  derived under the condition of collision-dominated plasma is not
  suitable for describing the viscous effect in the high speed wind
  streams, and the viscous force appears to exist in order to balance
  the inertial force of the fluid element with a resulting force, which
  approximates to the solar gravity between 0.3 AU and 1 AU. The radial
  dependence of the real viscous force in the streams is deduced and the
  corresponding viscosity is derived by assuming the trend of the real
  viscosity to approach the classical viscosity at small heliocentric
  distances. It is found that the ratio of the real to the classical
  viscosity at 1 AU should be equal to or greater than one tenth.

---------------------------------------------------------
Title: Re-examination of the viscous effect in the solar wind
Authors: Zhao, Xue-fu; Holzer, Thomas E.
1986ChA&A..10..148Z    Altcode:
  The Helios observations of the plasma and magnetic field in the
  high-speed solar wind streams between 1 AU and 0.3 AU are used to
  examine the radial distribution of the various forces exerted on the
  streams. It is shown that the classical expression of the viscosity
  derived under the condition of collision-dominated plasma is not
  suitable for describing the viscous effect in the high speed wind
  streams, and the viscous force appears to exist in order to balance
  the inertial force of the fluid element with a resulting force, which
  approximates to the solar gravity between 0.3 AU and 1 AU. The radial
  dependence of the real viscous force in the streams is deduced and the
  corresponding viscosity is derived by assuming the trend of the real
  viscosity to approach the classical viscosity at small heliocentric
  distances. It is found that the ratio of the real to the classical
  viscosity at 1 AU should be equal to or greater than one tenth.

---------------------------------------------------------
Title: Viscosity in the solar wind
Authors: Holzer, T. E.; Leer, E.; Zhao, X. -P.
1986JGR....91.4126H    Altcode:
  The effects of viscosity on a steady, radial, spherically
  symmetric solar wind with an embedded, non-radial magnetic field are
  reconsidered. The correct expression for the classical viscosity in
  the presence of a non-radial magnetic field is shown to be different
  from that used in the past, and a means of describing non-classical
  viscosity is presented. A physical interpretation of the classical and
  nonclassical description of viscosity is provided, and observational
  inferences are used in discussing the nature and degree of viscous
  effects in the solar wind.

---------------------------------------------------------
Title: Physics of the Sun. Vol. I: The solar interior. Vol. II:
The solar atmosphere. Vol. III: Astrophysics and solar-terrestrial
    relations.
Authors: Sturrock, P. A.; Holzer, T. E.; Mihalas, D. M.; Ulrich, R. K.
1986psvi.book.....S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Physics of the sun. Volume 3: Astrophysics and
    solar-terrestrial relations
Authors: Sturrock, P. A.; Holzer, T. E.; Mihalas, D. M.; Ulrich, R. K.
1986psun....3.....S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Physics of the sun. Volume 2: The solar atmosphere
Authors: Sturrock, P. A.; Holzer, T. E.; Mihalas, D. M.; Ulrich, R. K.
1986psun....2.....S    Altcode:
  Aspects related to the solar interior are discussed, taking into account
  thermonuclear reactions in the solar interior, atomic and radiative
  processes in the solar interior, hydrodynamic and hydromagnetic
  phenomena in the deep solar interior, rotation and magnetic fields,
  solar waves and oscillations, and observations and theories of solar
  convection, global circulation, and magnetic fields. In a discussion
  of the solar atmosphere, attention is given to the radiation output,
  the chromospheric fine structure, physical processes in the solar
  corona, magnetic energy storage and conversion in the solar atmosphere,
  the acceleration and propagation of solar flare energetic particles,
  solar radio emission, and structure, dynamics, and heating of the solar
  atmosphere. Other subjects explored are concerned with astrophysics and
  solar-terrestrial relations. The formation of the sun and its planets
  is considered along with the solar neutrino problem, solar and stellar
  magnetic activity, the effects of solar electromagnetic radiation on
  the terrestrial environment, and the effect of the solar wind.

---------------------------------------------------------
Title: Reexamination of the viscous effect in the solar wind
Authors: Zhao, Xue-Pu; Holzer, T. E.
1986ChJSS...6R...1Z    Altcode:
  The Helios observations of the plasma and magnetic field in the
  high-speed solar wind streams between 1 AU and 0.3 AU are used to
  examine the radial distribution of the various forces exerted on the
  streams. It is shown that the classical expression of the viscosity
  derived for the condition of collision-dominated plasma is not suitable
  to be used to describe the viscous effect in high-speed wind streams,
  and the viscous force appears to exist in order to balance the inertial
  force of the fluid element with the resulting force, which approximates
  to the solar gravity in value between 0.3 AU and 1 AU. The radial
  dependence of the real viscous force in the streams is deduced in the
  present work, and the corresponding viscosity is derived by assuming
  the trend of the real viscosity approaching the classical viscosity
  as the heliocentric distance decreases. It is found that the ratio of
  the real viscosity to the classical one at 1 AU is equal to or greater
  than one tenth.

---------------------------------------------------------
Title: Physical processes in the solar corona.
Authors: Rosner, R.; Low, B. C.; Holzer, T. E.
1986psun....2..135R    Altcode:
  Contents: Transport theory (fundamental parameter regimes, the "ideal"
  problem, viscosity, parallel thermal energy transport, perpendicular
  transport, some comments on model building). Magnetohydrodynamic
  processes in the corona (equilibrium magnetic fields, linear stability
  and nonequilibrium, time-dependent phenomena). Energy and momentum
  balance of open and closed coronal structures (coronal holes and
  high-speed streams, Alfvén waves in the lower solar atmosphere,
  energy supply to magnetically closed coronal regions).

---------------------------------------------------------
Title: Physics of the sun
Authors: Sturrock, P. A.; Holzer, T. E.; Mihalas, D. M.; Ulrich, R. K.
1986psun....1.....S    Altcode: 1986QB521.P48......
  Aspects related to the solar interior are discussed, taking into account
  thermonuclear reactions in the solar interior, atomic and radiative
  processes in the solar interior, hydrodynamic and hydromagnetic
  phenomena in the deep solar interior, rotation and magnetic fields,
  solar waves and oscillations, and observations and theories of solar
  convection, global circulation, and magnetic fields. In a discussion
  of the solar atmosphere, attention is given to the radiation output,
  the chromospheric fine structure, physical processes in the solar
  corona, magnetic energy storage and conversion in the solar atmosphere,
  the acceleration and propagation of solar flare energetic particles,
  solar radio emission, and structure, dynamics, and heating of the solar
  atmosphere. Other subjects explored are concerned with astrophysics and
  solar-terrestrial relations. The formation of the sun and its planets
  is considered along with the solar neutrino problem, solar and stellar
  magnetic activity, the effects of solar electromagnetic radiation on
  the terrestrial environment, and the effect of the solar wind.

---------------------------------------------------------
Title: Mass Loss Mechanisms for Cool, Low-Gravity Stars (Review)
Authors: Holzer, T. E.; MacGregor, K. B.
1985ASSL..117..229H    Altcode: 1985mlrg.proc..229H
  A number of physical effects relevant to mass loss from cool,
  low-gravity stars is explored in order to provide a basis for
  understanding the various mechanisms proposed to explain such
  quasi-steady and non-steady mass loss. After considering a few general
  implications of the requirements of mass, momentum, and energy balance,
  four specific mass loss mechanisms are examined in some detail. Emphasis
  is placed on the basic physical constraints imposed uniformly on all
  these mechanisms by inferences drawn from observations of a broad
  range of stars. It is suggested that these physical constraints,
  rather than the techniques used to observe particular objects should
  serve as the dominant factor in organizing thinking about massive,
  low speed, late type stellar winds.

---------------------------------------------------------
Title: Inferences Concerning Solar Wind Momentum and Energy Balance
    Drawn From Coronal Density Observations
Authors: Lallement, R. L.; Holzer, T. E.; Munro, R. H.
1985BAAS...17..638L    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Solar Wind and Coronal Holes
Authors: Leer, E.; Holzer, T. E.
1985ESASP.235....3L    Altcode: 1985fmsh.work....3L; 1985shpp.rept....3L
  The authors discuss the basic physics of the solar wind emanating from
  coronal holes, and show that thermally driven solar wind models cannot
  explain the high flow speeds. The effect of MHD waves on both the solar
  wind and wind from late-type giants and supergiants is also considered.

---------------------------------------------------------
Title: Acceleration of the Solar Wind
Authors: Holzer, T. E.
1985spit.conf..995H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Fast-mode magnetohydrodynamic waves in coronal holes and the
    solar wind
Authors: Fla, T.; Habbal, S. R.; Holzer, T. E.; Leer, E.
1984ApJ...280..382F    Altcode:
  Fast-mode MHD waves in the solar corona can propagate in any direction
  relative to the background magnetic field. In coronal holes, they
  refract into regions of low Alfven speed and are relatively difficult
  to damp. These characteristics lead to the possibility that fast-mode
  waves transport energy from magnetically closed coronal regions into
  coronal holes, that they are refracted into the central regions of
  coronal holes, and that they deposit most of their energy in the
  region of supersonic flow of high-speed solar wind streams emanating
  from coronal holes. To investigate whether this possibility might be
  realized and fast-mode waves might play a significant role in driving
  high-speed streams, a parameter study is carried out to examine the
  propagation and damping of fast-mode waves in various coronal hole
  models. This study indicates a broad range of coronal hole parameters
  for which fast-mode waves can play such a role and emphasizes the need
  for an improved knowledge of large-scale coronal magnetic structure,
  which is required before any firm conclusions can be drawn.

---------------------------------------------------------
Title: Alfven waves in stellar winds
Authors: Holzer, T. E.; Fla, T.; Leer, E.
1983ApJ...275..808H    Altcode:
  An analytic description of a stellar wind with waves which are undamped
  in the region of subsonic flow is developed for a range of stellar
  conditions, and numerical models with wave damping are applied to the
  massive winds from cool, low gravity stars, in an examination of the
  propagation and damping of Alfven waves in stellar winds. Attention is
  also given to the effects of these waves on the wind mass loss rate,
  asymptotic flow speed, and radial temperature profile. No evidence is
  found for the belief that winds driven by Alfven waves from cool, low
  gravity stars can exhibit both a very large mass loss rate and a very
  small asymptotic flow speed. It is noted that the radial temperature
  profile produced by invoking a constant damping length for the waves
  is different from that produced by self-consistent description of
  frictional wave damping for a wave frequency which is presumably
  consistent with the chosen constant damping length.

---------------------------------------------------------
Title: The solar wind ionization state as a coronal temperature
    diagnostic
Authors: Owocki, S. P.; Holzer, T. E.; Hundhausen, A. J.
1983ApJ...275..354O    Altcode:
  The 'frozen' solar wind ionization state within a few solar radii
  of the photosphere suggests that ion measurements at 1 AU may yield
  information on the electron temperature conditions at the base of
  the coronal expansion. The freezing-in process is examined in light
  of traditional assumptions as to coronal expansion, where electron
  temperature decreases monotonically with height, the bulk flow of all
  charge states of a given ion species are equal to the proton speed,
  and the ion outflow is spherically symmetric. The consequences of
  the relaxation of these assumptions include the underestimation of
  the magnitude of a temperature maximum occurring near the freezing-in
  radius. Because it is associated with high speed, low density flow,
  an areal divergence that is faster than that in a spherical outflow
  lowers the ionization state freezing-in level relative to that which
  is typical in spherically symmetric expansion.

---------------------------------------------------------
Title: Alfvén waves in stellar winds.
Authors: Holzer, T. E.
1983NASCP2280..279H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The acceleration and propagation of solar flare energetic
    particles
Authors: Forman, M. A.; Ramaty, R.; Zweibel, E. G.; Holzer, T. E.;
   Mihalas, D.; Sturrock, P. A.; Ulrich, R. K.
1982STIN...8329162F    Altcode:
  Observations and theories of particle acceleration in solar flares
  are reviewed. The most direct signatures of particle acceleration
  in flares are gamma rays, X-rays and radio emissions produced by the
  energetic particles in the solar atmosphere and energetic particles
  detected in interplanetary space and in the Earth's atmosphere. The
  implication of these observations are discussed. Stochastic and shock
  acceleration as well as acceleration in direct electric fields are
  considered. Interplanetary particle propagation is discussed and
  an overview of the highlights of both current and promising future
  research is presented.

---------------------------------------------------------
Title: Intrinsic stellar mass flux and steady stellar winds
Authors: Wolfson, R. L. T.; Holzer, T. E.
1982ApJ...255..610W    Altcode:
  The suggestion that the rates of mass loss from sun-like stars are
  determined by conditions imposed on the flow at or below photospheric
  levels, and that the warm chromosphere and hot corona of the star
  type in question are consequences of this imposed photospheric flow
  and dissipation in the resultant stellar wind, is examined through
  application of gas dynamic theories which include dissipation. Analytic
  and numerical calculations for both polytropic and thermally-conductive
  flows including viscosity indicate that arbitrary intrinsic mass flux
  specification is not consistent with steady, radial, spherically
  symmetric flow in the absence of energy addition. It is therefore
  concluded that there is not theoretical support for the suggestion
  stated.

---------------------------------------------------------
Title: The role of spicules in heating the solar atmosphere
Authors: Athay, R. G.; Holzer, T. E.
1982ApJ...255..743A    Altcode:
  From observations of downflowing material at transition region
  temperature, together with reasonable assumptions about the fate
  of spicules after they disappear from view in the visual spectrum,
  it is shown that the rise and fall of spicular material can supply
  the thermal energy required by radiative losses from the transition
  region and upper chromosphere in the network. If sufficient heat
  is added to spicules, in conjunction with their acceleration, the
  spicule phenomenon may also play a major role in the production and
  maintenance of much of the solar corona. Thus, the processes whereby
  spicules are generated and heated may be of central importance to the
  energy balance of the outer solar atmosphere. This conclusion points
  to the need for developing an understanding of the acceleration and
  heating of spicules and to the need for observations of spicules after
  they have disappeared in the visual spectrum.

---------------------------------------------------------
Title: Acceleration of the solar wind.
Authors: Leer, E.; Holzer, T. E.; Fla, T.
1982SSRv...33..161L    Altcode:
  In this review, we discuss critically recent research on the
  acceleration of the solar wind, giving emphasis to high-speed solar
  wind streams emanating from solar coronal holes. We first explain why
  thermally driven wind models constrained by solar and interplanetary
  observations encounter substantial difficulties in explaining high speed
  streams. Then, through a general discussion of energy addition to the
  solar wind above the coronal base, we indicate a possible resolution of
  these difficulties. Finally, we consider the question of what role MHD
  waves might play in transporting energy through the solar atmosphere
  and depositing it in the solar wind, and we conclude by examining,
  in a simple way, the specific mechanism of solar wind acceleration by
  Alfvén waves and the related problem of accelerating massive stellar
  winds with Alfvén waves.

---------------------------------------------------------
Title: Theory of Mass and Energy Flow in the Solar Wind
Authors: Holzer, T. E.; Leer, E.
1981sowi.conf...28H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Stellar Winds with Excess Mass Flux
Authors: Wolfson, R. L. T.; Holzer, T. E.
1980BAAS...12Q.864W    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Conductive solar wind models in rapidly diverging flow
    geometries
Authors: Holzer, T. E.; Leer, E.
1980JGR....85.4665H    Altcode:
  A detailed parameter study of conductive models of the solar wind has
  been carried out, extending the previous similar studies of Durney
  (1972) and Durney and Hundhausen (1974) by considering collisionless
  inhibition of thermal conduction, rapidly diverging flow geometries, and
  the structure of solutions for the entire n<SUB>0</SUB>-T<SUB>0</SUB>
  plane (n<SUB>0</SUB> and T<SUB>0</SUB> are the coronal base density
  and temperature). Primary emphasis is placed on understanding the
  complex effects of the physical processes operative in conductive
  solar wind models. There are five points of particular interest that
  have arisen from the study: (1) neither collisionless inhibition
  of thermal conduction nor rapidly diverging flow geometries can
  significantly increase the solar wind speed at 1 AU; (2) there exists
  a firm upper limit on the coronal base temperature consistent with
  observed values of the coronal base pressure and solar wind mass
  flux density; (3) the principal effect of rapidly diverging flow
  geometries is a decrease in the solar wind mass flux density at 1 AU
  and an increase in the mass flux density at the coronal base; (4)
  collisionless inhibition of thermal conduction can lead to a solar
  wind flow speed that either increases or decreases with increasing
  coronal base density (n<SUB>0</SUB>) and temperature (T<SUB>0</SUB>,
  depending on the region of the n<SUB>0</SUB>-T<SUB>0</SUB> plane
  considered; (5) there is a region of the n<SUB>0</SUB>-T<SUB>o</SUB>
  plane at high coronal base densities where low-speed, high-mass-flux,
  transonic solar wind flows exist-a region not previously considered.

---------------------------------------------------------
Title: Energy addition in the solar wind.
Authors: Leer, E.; Holzer, T. E.
1980JGR....85.4681L    Altcode:
  A general study of energy addition, energy loss, and energy
  redistribution in the solar wind, for both spherically symmetric and
  rapidly diverging flow geometries, is presented. It is found that
  energy addition in the region of subsonic flow increases the solar
  wind mass flux but either has little effect on (for heat addition) or
  significantly reduces (for momentum addition) the solar wind flow speed
  at 1 AU. In contrast, energy addition in the region of supersonic flow
  has no effect on the solar wind mass flux but significantly increases
  the flow speed at 1 AU. It is also found that both momentum loss in the
  subsonic region and energy exchange (involving loss in the subsonic
  region and gain in the supersonic region) can lead to an increase in
  the asymptotic flow speed. This general study thus places certain
  constraints on viable mechanisms for driving high-speed solar wind
  streams and points to a number of specific, self-consistent studies
  of such mechanisms that need to be carried out in the future.

---------------------------------------------------------
Title: Large-Scale Solar Magnetic Fields, Coronal Holes and High-Speed
    Solar Wind Streams
Authors: Hundhausen, A. J.; Holzer, T. E.
1980RSPTA.297..521H    Altcode: 1980RSLPT.297..521H
  The connection between geomagnetic disturbances recurring with
  the 27 day synodic solar rotation period and streams of plasma
  emitted from particular regions on the Sun (so-called M-regions)
  has been one of the long-standing problems of solar-terrestrial
  physics. The 'plasma streams' have been identified with long-lived
  streams of fast solar wind, imbedded in unipolar magnetic 'sectors',
  for more than a decade. The solar sources of these streams have been
  identified unequivocally only within the past few years as large-scale
  coronal regions of open, diverging magnetic fields and abnormally
  low particle densities, observed as 'coronal holes'. The temporal
  evolution of holes and streams seems to reflect the evolution of
  the large-scale solar magnetic fields; the observed spatial pattern
  of holes suggests a grand three-dimensional structure of solar wind
  flow and interplanetary magnetic fields organized by a near-equatorial
  neutral sheet. The conclusion that much of the solar wind comes from
  coronal holes implies several important modifications of our ideas
  regarding the physical origins of the solar wind and any theoretical
  models of solar wind formation.

---------------------------------------------------------
Title: Alfvén-wave acceleration of the solar wind.
Authors: Leer, E.; Fla, T.; Holzer, T. E.
1980NCimC...3..114L    Altcode:
  The increase in mass flux and energy flux from the sun is calculated
  for an increasing Alfven-wave amplitude, in the lower corona and
  fixed values for the coronal pressure, the coronal temperature and the
  interplanetary magnetic field. The energy per mass and the flow speed
  at the orbit of the earth increase with the wave amplitude and reach a
  maximum for a wave amplitude of approximately 50 km/sec. For reasonable
  values of the coronal pressure and temperature and of the magnetic
  field, high-speed solar-wind streams can be driven by Alfven waves with
  an amplitude approximately equal to 20-25 km/sec in the lower corona.

---------------------------------------------------------
Title: The Corona and Heliosphere
Authors: Holzer, T.
1980NASCP2098...13H    Altcode: 1980sscs.nasa...13H
  The eleven-year solar cycle is an especially appropriate period
  over which to study the solar output and its variation, because
  during this cycle most of the important types of solar variability
  (many characterized by periods shorter than eleven years) are
  manifested. Studies of solar variability over a solar cycle will
  improve understanding of solar structure and of the generation of
  the solar wind, and this improved understanding can be useful in
  the related studies of stellar structure and stellar winds, since
  stellar observations are necessarily less detailed and sophisticated
  than are solar observations. A particularly significant benefit that
  will accrue from a thorough study of the solar atmosphere and its
  variability over the next solar cycle is a great enhancement in the
  usefulness of so-called 'proxy' data in studying longer term solar
  variations and their terrestrial implication.

---------------------------------------------------------
Title: Theory of the Solar Wind and Winds from Late-Type Stars
Authors: Holzer, T. E.
1980SAOSR.389..153H    Altcode: 1980csss....1..153H
  No abstract at ADS

---------------------------------------------------------
Title: Heating of Coronal Loops by Fast-Mode Magnetohydrodynamic Waves
Authors: Habbal, Shadia Rifai; Leer, Egil; Holzer, Thomas E.
1979SoPh...64..287H    Altcode:
  A possible mechanism for the formation and heating of coronal loops
  through the propagation and damping of fast mode waves is proposed
  and studied in detail. Loop-like field structures are represented by
  a dipole field with the point dipole at a given distance below the
  solar surface. The density of the medium is determined by hydrostatic
  equilibrium along the field lines in an isothermal atmosphere. The
  fast mode waves propagating outward from the coronal base are refracted
  into regions with a low Alfvén speed and suffer collisionless damping
  when the gas pressure becomes comparable to the magnetic pressure. The
  propagation and damping of these waves are studied for three different
  cases: a uniform density at the coronal base, a density depletion
  within a given flux tube, and a density enhancement within a given flux
  tube. The fast mode waves are found to be important in the formation
  and heating of the loops if the wave energy flux density is of the order
  10<SUP>5</SUP> ergs cm<SUP>-2</SUP> s<SUP>-1</SUP> at the coronal base.

---------------------------------------------------------
Title: Mass Flow and the Validity of Ionization Equilibrium on the Sun
Authors: Joselyn, J.; Munro, R. H.; Holzer, T. E.
1979SoPh...64...57J    Altcode:
  Ionization equilibrium is a useful assumption which allows
  temperatures and other plasma properties to be deduced from spectral
  observations. Inherent to this assumption is the premise that the ion
  stage densities are determined solely by atomic processes which are
  local functions of the plasma temperature and electron density. However,
  if the time scale of plasma flow through a temperature gradient is
  less than the characteristic time scale for an important atomic
  process, deviations from the ionization stage densities expected
  for equilibrium will occur which could introduce serious errors
  into subsequent analyses. In the past few years, significant flow
  velocities in the upper solar atmosphere have been inferred from
  observations of emission lines originaing in the transition region
  (about 10<SUP>4</SUP>-10<SUP>6</SUP> K) and corona. In this paper,
  three models of the solar atmosphere (quiet Sun, coronal hole, and
  a network model) are examined to determine if the emission expected
  from these model atmospheres could be produced from equilibrium
  ion populations when steady flows of several kilometers per second
  are assumed. If the flows are quasi-periodic instead of steady,
  spatial and temporal averaging inherent in the observations may
  allow for the construction of satisfactory models based on the
  assumption of ionization equilibrium. Representative emission lines
  are analysed for the following ions: C III, IV, O IV, V, VI, Ne VII,
  VIII, Mg IX, X, Si XII, and Fe IV-XIV. Two principle conclusions
  are drawn. First, only the iron ions are generally in equilibrium
  for steady flows of 20 km s<SUP>−1</SUP>. For carbon and oxygen,
  ionization equilibrium is not a valid assumption for steady flows as
  small as 1 km s<SUP>−1</SUP>. Second, the three models representing
  different solar conditions behave in a qualitatively similar manner,
  implying that these results are not particularly model dependent over
  the range of temperature gradients and electron densities thus far
  inferred for the Sun. In view of the flow velocities which have been
  reported for the Sun, our results strongly suggest caution in using
  the assumption of ionization equilibrium for interpreting spectral
  lines produced in the transition region.

---------------------------------------------------------
Title: Constraints on the solar coronal temperature in regions of
    open magnetic field.
Authors: Leer, E.; Holzer, T. E.
1979SoPh...63..143L    Altcode:
  It is shown that the simultaneous consideration of observed values
  of the solar wind proton flux density at 1 AU and of the electron
  pressure at the base of the solar corona leads to relatively strong
  constraints on the coronal temperature in the region of subsonic solar
  wind flow. The extreme upper limit on the mean coronal temperature
  in the subsonic region is found to be about 2.6 × 10<SUP>6</SUP> K,
  but this upper limit is reduced to about 2.0 × 10<SUP>6</SUP> K if
  reasonable, rather than extreme, assumptions are made; the limit on
  the maximum temperature is about 0.5 × 10<SUP>6</SUP> K greater than
  the limit on the mean. It is also found that the same two observations
  limit the rate of momentum addition possible in the region of subsonic
  solar wind flow.

---------------------------------------------------------
Title: The validity of ionization equilibrium in highly ionized
    astrophysical plasmas.
Authors: Joselyn, J. A.; Munro, R. H.; Holzer, T. E.
1979ApJS...40..793J    Altcode:
  Conditions of steady flow through a temperature gradient are determined
  for which the assumption of ionization equilibrium remains approximately
  valid. A simplified solution for ionization stage densities is obtained
  for the set of mass conservation equations under conditions of steady
  flow through a temperature gradient for the following elements and
  ionization stages: C II through C VII, N III through N VIII, O I through
  O IX, Ne I through Ne XI, Mg II through Mg XII, Si I through Si XIV, S
  I through S X, and Fe VI through Fe XVII. The results obtained show that
  some ions may reflect conditions appropriate to ionization equilibrium,
  but ionization equilibrium may be a very poor assumption for other ions.

---------------------------------------------------------
Title: The solar wind and related astrophysical phenomena
Authors: Holzer, T. E.
1979sswp.book..101H    Altcode:
  In the present paper, the current status of understanding of
  the large-scale dynamics of the solar wind are reviewed, in the
  context of recent studies of coronal holes, on board Skylab. The
  relationship between physical processes in the solar wind and in various
  astrophysical plasmas is examined, with particular reference to the
  study of stellar winds. The basic mathematical framework, including
  both microscopic and macroscopic descriptions of the solar wind plasma,
  is outlined. The discussion is limited mostly to the macroscopic MHD
  description, as it applied to large-scale dynamic processes. Some
  directions of future research are proposed.

---------------------------------------------------------
Title: The Solar Wind and Related Astrophysical Phenomena
Authors: Holzer, T. E.
1979spp2.conf....1H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Heating of Coronal Loops by Fast Mode Mhd-Waves
Authors: Habbal, S. R.; Holzer, T. E.; Leer, E.
1979phsp.coll..228H    Altcode: 1979phsp.conf..228H; 1979IAUCo..44..228H
  This paper discusses the formation and heating of solar coronal loops
  by fast mode MHD waves which, unlike Alfven waves, have an acoustic
  component. These fast mode waves can carry a substantial energy flux
  along the wave normal only in coronal regions with a strong magnetic
  field. The propagation and damping of these waves in a two dimensional
  solar atmosphere is considered. It is noted that the damping occurs
  mainly in the region where beta = 2nkT/(B-squared/8pi) is larger than
  0.05, and that most of the energy is transferred to the plasma in the
  region where beta approximately equals 0.2. In this case the plasma
  in the flux tube with a height approximately equal to 0.2R is heated
  most, and the wave energy flux from the base deposits more energy
  in this tube than is lost by radiation and heat conduction at the
  footpoints. Therefore, density and temperature perturbations across the
  field lines will develop and 'loops' may be formed. Heating mechanisms
  of the surrounding plasma in both large density and low density loops
  are then described.

---------------------------------------------------------
Title: A steady three-fluid coronal expansion for nonspherical
    geometries
Authors: Joselyn, J.; Holzer, T. E.
1978JGR....83.1019J    Altcode:
  A steady three-fluid model of the solar coronal expansionk in which
  <SUP>4</SUP>He<SUP>++</SUP> ions (alphas) are treated as a nonminor
  species, is developed for nonspherically symmetric flow geometries
  of the general sort thought to be characteristic of coronal holes. It
  is found that the very high mass fluxes in the low corona, which are
  associated with rapidly diverging flow geometries, lead to a locally
  enhanced frictional coupling between protons and alphas and consequently
  to a significant reduction of the He/H abundance ratio in the lower
  corona from that normally predicted by multifluid models. In the models
  considered, the frictional drag on the protons by the alphas (a process
  neglected in most studies) is found to play an important role near the
  sun. Heavy ions, other than alphas, are treated as minor species and
  are seen to exhibit varying responses to the rapidly diverging flow
  geometries, depending on the ion mass and charge. As for the protons,
  the frictional effect of the alphas on the heavier ions is found to
  be significant in the models considered.

---------------------------------------------------------
Title: Neutral hydrogen in interplanetary space.
Authors: Holzer, T. E.
1977RvGSP..15..467H    Altcode: 1977RvGeo..15..467H
  Several problems relating to interplanetary hydrogen are
  discussed. Various possible interplanetary sources and sinks for H and
  He atoms are considered, and their contributions to the distribution of
  interplanetary neutral gas are compared. A theoretical description of
  the penetration of interstellar H and He into interplanetary space is
  presented with reference to observations of interplanetary neutral
  gas. The implications of interplanetary H for the solar wind are
  examined, and some qualitative aspects of the passage of the solar
  system through an interstellar H cloud are discussed. Future research
  goals are outlined.

---------------------------------------------------------
Title: Neutral hydrogen in interplanetary space
Authors: Holzer, Thomas E.
2021JPhCS2105a2001D    Altcode:
  The theory and observations relevant to the problem of neutral hydrogen
  in interplanetary space are reviewed. Emphasis is placed on those
  theoretical problems whose treatment in the existing literature
  is not entirely satisfactory, but discussion of all significant
  observational and theoretical aspects of the interplanetary H problem
  is provided. Attention is also given to other neutral constituents
  (particularly He) that are relatively abundant in interplanetary space
  and in the local interstellar medium, which is the primary source of
  the interplanetary neutral gas. Some consequences of the passage of the
  solar system through an interstellar cloud are also briefly considered.

---------------------------------------------------------
Title: The Validity of Ionization Equilibrium in Steady-State Flows.
Authors: Joselyn, J. A.; Munro, R. H.; Holzer, T. E.
1977BAAS....9..650J    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: INVITED PAPER - The Solar Wind and Stellar Winds.
Authors: Holzer, T. E.
1977BAAS....9..344H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Effects of rapidly diverging flow, heat addition, and momentum
    addition in the solar wind and stellar winds
Authors: Holzer, T. E.
1977JGR....82...23H    Altcode:
  The roles of rapid flow tube divergence and heat and momentum addition
  in one-fluid models of the solar wind and stellar winds and the role of
  heat addition in two-fluid models of the solar wind are explored. It
  is found that under certain circumstances heat addition, momentum
  addition, or the rapid divergence of a flow tube can produce more
  than one critical point in the solution topologies of the solar and
  stellar wind equations. For the solar wind, additional critical points
  associated with rapid flow tube divergence (e.g., in coronal holes)
  and/or with momentum addition can lead to high expansion speeds near the
  coronal base, and these high speeds, in conjunction with a rapid flow
  tube divergence, may in certain cases produce an increased conductive
  energy supply to the solar wind. If such an increased conductive energy
  supply is produced, the need for energy addition above the coronal base
  is correspondingly reduced. In addition, the high flow speeds at low
  altitudes make it possible for any required energy addition to occur
  relatively near the coronal base, so that the need for extended heating
  of the solar wind may be substantially less than has been suggested in
  the past. For radiation-driven stellar winds the additional critical
  points associated with rapid flow tube divergence can lead to supersonic
  flow much deeper in the stellar atmosphere than is predicted by radial,
  spherically symmetric flow models, and this might resolve the apparent
  conflict between radiation-driven wind models and certain observations
  of Of stars. In two-fluid solar wind models including proton heat
  addition it is shown that the radial electron temperature profile
  has a sufficiently important dynamical influence that the accurate
  treatment of electron energy transport is a primary prerequisite to
  obtaining quantitatively significant results.

---------------------------------------------------------
Title: The Magnetosphere
Authors: Holzer, Thomas
1977soiv.conf....5H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Dynamics of coronal hole regions. I. Steady polytropic flows
    with multiple critical points.
Authors: Kopp, R. A.; Holzer, T. E.
1976SoPh...49...43K    Altcode:
  The hydrodynamic properties of a steadily expanding corona are explored
  for situations in which departures from spherically symmetric outflow
  are large, in the sense that the geometrical cross section of a given
  flow tube increases outward from the Sun faster than r<SUP>2</SUP>
  in some regions. Assuming polytropic flow, it is shown that in
  certain cases the flow may contain more than one critical point. We
  derive the criterion for determining which of these critical points is
  actually crossed by the transonic solution which begins at the Sun and
  extends continuously outward. Next, we apply the theory to geometries
  which exhibit rapid spreading of the flow tubes in the inner corona,
  followed by more-or-less radial divergence at large distances. This is
  believed to be the type of geometry found in coronal hole regions. The
  results show that, if this initial divergence is sufficiently large,
  the outflow becomes supersonic at a critical point encountered low in
  the corona in the region of high divergence, and it remains supersonic
  at all greater heights in the corona. This feature strongly suggests
  that coronal hole regions differ from other open-field regions of
  the corona in that they are in a `fast', low density expansion state
  over much of their extent. Such a dynamical configuration makes it
  possible to reconcile the low values of electron density observed in
  coronal holes with the large particle fluxes in the associated high
  speed streams seen in the solar wind.

---------------------------------------------------------
Title: Interaction between the Solar Wind and the Interstellar Medium
Authors: Holzer, Thomas E.
1976PrAA...50...21H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Our quantitative understanding of the coronal expansion.
Authors: Holzer, T. E.
1976pspe.proc..366H    Altcode: 1976pspe.conf..366H
  A review of the current state of our quantitative understanding of
  the coronal expansion is presented. Emphasis is placed on the problem
  of supplying the mass and energy fluxes observed in high speed solar
  wind streams from the low-density, rapidly diverging coronal hole
  regions. Future directions for theoretical research on this problem
  are indicated, but it is pointed out that at the present time our
  quantitative understanding of the coronal expansion is severely limited
  by the current state of coronal observations.

---------------------------------------------------------
Title: Relationship between the interplanetary magnetic field and
    ‘isolated substorms’
Authors: Hirshberg, J.; Holzer, T. E.
1975JGR....80.3553H    Altcode:
  The study of 54 ‘isolated substorms’ by Foster et al. (1971)
  is reexamined, and five different explanations of the results of
  this study are found to be consistent with the data. For each of the
  five explanations the decay time of the AE index is found not to be
  characteristic of internal magnetospheric processes but to be due to
  data selection. In four of the five explanations the time lag that
  maximizes the correlation coefficient between B<SUB>z</SUB> and AE
  is found not to represent the time lag between an interplanetary
  cause and a consequent magnetospheric effect. It is shown that by
  simple extensions of the Foster et al. study, at least four of the
  five explanations can be eliminated. The implications of the Foster
  et al. study with regard to the ‘growth phase controversy’ are
  considered, and proposed extensions of the study appear likely to
  resolve the controversy.

---------------------------------------------------------
Title: The response of the day side magnetosphere-ionosphere
    system to time-varying field line reconnection at the magnetopause,
    1. Theoretical model
Authors: Holzer, T. E.; Reid, G. C.
1975JGR....80.2041H    Altcode:
  The process whereby magnetic flux is removed from the day side region of
  the magnetosphere and transferred to the magnetotail has been referred
  to as ‘erosion’ of the day side magnetosphere. Observations have
  suggested that the occurrence of this erosion process is related
  to increases in the southward component of the interplanetary
  magnetic field and hence by inference to increases in the rate of
  field line reconnection at the day side magnetopause. Similarly, the
  inverse of the erosion process (i.e., the net transfer of flux from
  the magnetotail to the day side magnetosphere) is associated with
  decreases in the southward component of the interplanetary magnetic
  field and hence to decreases in the magnetopause reconnection rate. A
  quantitative theory of the day side erosion process (and its inverse)
  is developed here in terms of an electrical circuit analogy, in
  which the ionosphere acts as a resistance with a voltage generator
  connected in parallel and the closed magnetosphere acts as a set of
  inductances and a capacitance. Changes in the rate of day side field
  line reconnection lead directly to changes in the potential drop across
  the magnetospheric capacitor and, after a characteristic time delay,
  to changes in the voltage applied by the generator. The response
  of the coupled ionosphere-magnetosphere circuit to such changes is
  studied in some detail, and a quantitative estimate for the rate of
  erosion is obtained. In addition to describing the mean motion of the
  magnetopause associated with erosion the theory predicts oscillations of
  the magnetopause about this mean with characteristic periods of several
  minutes. Such oscillations have frequently been observed by spacecraft.

---------------------------------------------------------
Title: The response of the day side magnetosphere-ionosphere system
    to time-varying field line reconnection at the magnetopause 2. Erosion
    event of March 27, 1968
Authors: Reid, G. C.; Holzer, T. E.
1975JGR....80.2050R    Altcode:
  The circuit analogy for the response of the coupled
  magnetosphere-ionosphere system to changes in day side field line
  reconnection rate is applied to real conditions and is used to calculate
  the expected variation in magnetopause position during the erosion
  event described by Aubry et al. (1970). Generally good agreement
  between observation and theory is found. The role of the dawn-dusk
  electric field responsible for magnetospheric convection is examined
  in some detail and is treated in the circuit analogy as the field due
  to an external generator connected across the circuit. It is found
  that the erosion process requires two distinct time constants for a
  proper description: (1) the time needed for magnetosheath plamsa to
  travel down the freshly reconnected field lines to the ionosphere and
  (2) roughly, the time required for the foot of a reconnected field
  line to travel one quarter of the total noon-midnight dimension of
  the polar cap. The second time constant is the dominant one and is
  not related to the ionospheric conductivity, as has been suggested
  previously. Examination of high-latitude magnetograms obtained during
  the erosion event discussed shows that the electric field oscillations
  predicted by the theory and observed by the spacecraft in terms
  of oscillations in the magnetopause position are also reflected in
  oscillations in ionospheric current flow.

---------------------------------------------------------
Title: The effect of asymmetric solar wind on the Lyman α sky
    background
Authors: Joselyn, J. A.; Holzer, T. E.
1975JGR....80..903J    Altcode:
  The Lyman α (Ly α) sky background arises from the scattering
  of solar Ly α from a spatial distribution of neutral hydrogen in
  interplanetary space. This distribution is partially determined by
  the solar wind proton flux, which provides the principal mechanism
  of loss by charge exchange of the neutral hydrogen. By generating
  isophotal maps of scattered Ly α for several choices of interstellar
  wind direction and solar wind proton flux distributions, the results
  show that latitudinal variations of the solar wind proton flux can have
  a significant effect on the observed location and shape of the Ly α
  intensity maximum. This fact should aid in the interpretation of Ly
  α maps and also indicates a possible method for inferring values for
  the average solar wind proton flux out of the ecliptic plane.

---------------------------------------------------------
Title: Solar Wind Heating Beyond 1 AU
Authors: Holzer, Thomas E.; Leer, Egil
1973Ap&SS..24..335H    Altcode:
  The effect of an interplanetary atomic hydrogen gas on solar
  wind proton, electron and α-particle temperatures beyond 1 AU is
  considered. It is shown that the proton temperature (and probably
  also the α-particle temperature) reaches a minimum between 2 AU and
  4 AU, depending on values chosen for solar wind and interstellar gas
  parameters. Heating of the electron gas depends primarily on the thermal
  coupling of the protons and electrons. For strong coupling (when T
  <SUB> p </SUB> ≳T <SUB> e </SUB>), the electron temperature reaches a
  minimum between 4 AU and 8 AU, but for weak coupling (Coulomb collisions
  only), the electron temperature continues to decrease throughout the
  inner solar system. A spacecraft travelling to Jupiter should be able
  to observe the heating effect of the solar wind-interplanetary hydrogen
  interaction, and from such observations it may be possible of infer
  some properties of the interstellar neutral gas.

---------------------------------------------------------
Title: Quiet auroral arcs and electrodynamic coupling between the
    ionosphere and the magnetosphere, 2
Authors: Holzer, Thomas E.; Sato, Tetsuya
1973JGR....78.7330H    Altcode:
  The auroral arc model of Sato and Holzer (1973) (this issue) is
  extended and applied to the real auroral ionosphere-magnetosphere
  system. A discussion is presented of the model's predictions regarding
  electric fields in and near quiet arcs, the spacing of multiple arcs,
  the latitudinal conjugacy of quiet arcs, the location of quiet arcs,
  and the current system (field aligned and cross field) associated
  with quiet arcs. These predictions are then compared with relevant
  observations, and it is found that the model is reasonably consistent
  with existing observational data.

---------------------------------------------------------
Title: Quiet auroral arcs and electrodynamic coupling between the
    ionosphere and the magnetosphere, 1
Authors: Sato, Tetsuya; Holzer, Thomas E.
1973JGR....78.7314S    Altcode:
  The magnetosphere-ionosphere system associated with the nighttime
  auroral region is considered for quiet conditions, and it is shown
  that in the presence of an electric field an ionospheric electron
  density perturbation that is narrow in latitude and broad in local
  time will grow exponentially in time, driving an ac current through
  the magnetosphere-ionosphere system. Under favorable conditions a
  field-aligned current-driven instability is excited in the lower
  magnetosphere, and associated wave-particle interactions give rise
  to pitch angle scattering of energetic magnetospheric particles and
  an anomalous resistivity along field lines. In a region of upward
  field-aligned current the pitch angle scattering and the field-aligned
  electric field (arising from anomalous resistivity) lead to an enhanced
  flux of precipitating magnetospheric electrons and an energization of
  these electrons that in turn give rise to an enhanced auroral electrojet
  current and a nearly coincident visible auroral arc.

---------------------------------------------------------
Title: Book Review: Particles and fields in the magnetosphere. Edited
    by B. M. MCCORMACK. D. Reidel, Dordrecht, Holland; Springer-Verlag,
    New York, 1970. ix + 453 pp. Price $27.00
Authors: Holzer, Thomas E.
1972Icar...16..408H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Neutral Hydrogen in Cometary Comas
Authors: Mendis, D. A.; Holzer, T. E.; Axford, W. I.
1972Ap&SS..15..313M    Altcode:
  The strong Lα radiation observed recently in comets Tago-Sato-Kosaka
  and Bennett can be explained in terms of the resonant scattering of
  solar Lα radiation on neutral hydrogen formed by the photo-dissociation
  of H<SUB>2</SUB>O which is vaporized from a nucleus having an ice
  core. A complete hydrodynamic description of an atmosphere composed of
  H<SUB>2</SUB>O and its daughter products OH, H and O coupled through
  frictional interaction as well as production and loss processes is
  given. Numerical results are computed in a typical case, and it is
  found that a temperature of about 3000 K for the cometary atmosphere
  provides the best fit with observation.

---------------------------------------------------------
Title: Interaction of the solar wind with the neutral component of
    the interstellar gas
Authors: Holzer, Thomas E.
1972JGR....77.5407H    Altcode:
  A model is constructed to represent the interaction between the solar
  wind and the neutral component of the interstellar gas. It is found
  that the neutral gas has several important effects on the solar-wind
  expansion beyond the orbit of the earth and that it should be possible
  to infer the presence of the neutral gas from observations of the solar
  wind made by a space probe traveling into the outer solar system. The
  effects include a deceleration and heating of the supersonic solar
  wind, a cooling of and pressure reduction in the subsonic solar wind,
  and a tightening of the spiral magnetic field in the supersonic solar
  wind. Although in principle the neutral gas can lead to a shock-free
  transition from supersonic to subsonic flow, it appears that in practice
  a shock is present. The minimum distance to the shock is estimated to
  be less than 50 AU and probably more than 25 AU.

---------------------------------------------------------
Title: Collisionless solar wind protons: A comparison of kinetic
    and hydrodynamic descriptions
Authors: Leer, Egil; Holzer, Thomas E.
1972JGR....77.4035L    Altcode:
  Kinetic and hydrodynamic descriptions of a collisionless solar wind
  proton gas are compared. Heat conduction and viscosity are neglected
  in the hydrodynamic formulation but are automatically included in the
  kinetic formulation. The fact that the results of the two models are
  very nearly the same indicates that heat conduction and viscosity are
  not important in the solar wind proton gas beyond approximately 0.1
  AU. It is concluded that the hydrodynamic equations provide a valid
  description of the collisionless solar wind protons and, hence, that
  future models of the quiet solar wind should be based on a hydrodynamic
  formulation.

---------------------------------------------------------
Title: A comparison of kinetic and hydrodynamic models of an expanding
    ion-exosphere
Authors: Holzer, Thomas E.; Fedder, Joel A.; Banks, Peter M.
1971JGR....76.2453H    Altcode:
  The results of calculations based on kinetic and hydrodynamic models of
  a collisionless ion-exosphere are compared, and it is found that the
  density and velocity of an ionic constituent flowing supersonically
  throughout the exosphere can be adequately described by ordinary
  hydrodynamic equations with isotropic pressure. This suggests that
  the basic flow characteristics of the polar wind can be determined
  by hydrodynamic equations throughout the polar ionosphere. We derive
  a set of CGL-type hydrodynamic equations (for anisotropic pressure)
  that include the effects of energy and momentum transfer processes
  (e.g., collisions), and we show that such equations are applicable
  to problems of polar wind and solar wind temperature anisotropies,
  as well as to related flow problems.

---------------------------------------------------------
Title: Interaction between interstellar helium and the solar wind
Authors: Holzer, T. E.; Axford, W. I.
1971JGR....76.6965H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Solar Wind Ion Composition
Authors: Holzer, T. E.; Axford, W. I.
1970JGR....75.6354H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The Theory of Stellar Winds and Related Flows
Authors: Holzer, T. E.; Axford, W. I.
1970ARA&A...8...31H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Stellar Winds and Related Flows.
Authors: Holzer, Thomas Edward
1970PhDT........78H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Accidentally resonant charge exchange and ion momentum transfer
Authors: Holzer, Thomas E.; Banks, Peter M.
1969P&SS...17D....H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Accidentally resonant charge exchange and ion momentum transfer
Authors: Holzer, Thomas E.; Banks, Peter M.
1969P&SS...17.1074H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Charge exchange and ion diffusion for thermal nonequilibrium
    conditions
Authors: Banks, Peter M.; Holzer, Thomas E.
1968P&SS...16.1019B    Altcode:
  The ion-neutral diffusion coefficient for resonance charge exchange
  has been obtained directly from Boltzmann's equation for conditions of
  separate ion and neutral Maxwellian gas temperatures. With application
  to the problems of O <SUP>+</SUP>-O and H <SUP>+</SUP>-H diffusion it is
  found that there is little effect upon the F<SUB>2</SUB>-region maximum
  since T <SUB>i</SUB>$∼T <SUB>n</SUB>. At higher altitudes, where
  T &gt; T<SUB>n</SUB> to a significant degree, the present diffusion
  coefficient becomes substantially larger than previous expressions based
  upon a condition of thermal equilibrium between ion and neutral gases.