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Author name code: athay
ADS astronomy entries on 2022-09-14
author:"Athay, R. Grant" 

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Title: The Solar Interior-Atmospheric System
Authors: Athay, R. G.; Low, B. C.; White, O. R.
2008ASPC..383..315A    Altcode:
  This article discusses an unpublished paradigm by Athay that relates
  the general properties of the solar photosphere, chromosphere, and
  corona to the stream of photons, kinetic energy, and magnetic fields
  flowing from the solar interior. Using the Athay paradigm, we discuss
  the physics of the solar atmosphere and its coupling to the solar
  dynamo to clarify the connection of observed structures and variations
  in the three layers to their hydromagnetic interpretation. The details
  of the eleven-year cycles of solar activity are quite different, but
  each cycle exhibits two invariant features. First, the chromosphere and
  corona are always present above the photosphere in its turbulent state
  maintained by the radiative flux escaping at the surface as the solar
  luminosity. Second, the solar magnetic field is globally reversed early
  in each cycle, accompanied by systematic drifts in magnetic activity
  shown in the sunspot butterfly diagram of each cycle. We describe a
  scenario for the corresponding systematic changes in the upper solar
  atmosphere that recover the minimum-activity corona from one cycle
  to the next. We discuss in some detail the mechanisms that heat the
  atmosphere and process the magnetic flux continually emerging from the
  interior, providing a unified view of the interior-atmospheric system.

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Title: An Ionization Instability and the Base of the Corona
Authors: Athay, R. Grant
2002ApJ...565..630A    Altcode:
  A chromosphere of partially ionized atoms in a turbulent, magnetic,
  solar-type star may be subject to a thermal instability due
  to ionization, which we propose in this paper. The instability
  occurs when changing magnetic fields cause ion heating so that a
  proton-electron pair are heated preferentially with respect to neutral
  atoms. This preferential heating, when partial ionization is present,
  causes any small temperature change to be amplified. An increase in
  temperature increases the ionization, which in turn increases the local
  heating. Similarly, a decrease in temperature decreases the ionization,
  which decreases the heating. The layer of instability occurs between two
  stable layers: the chromosphere, in which the ionization is too low,
  and the corona, in which the ionization is essentially complete. Such
  an atmosphere tends to be bimodal; it is either fully neutral or fully
  ionized. We use the models of Fontenla and coworkers to demonstrate the
  instability, but any magnetic stellar model in which ions are heated
  preferentially over neutral hydrogen will exhibit the same instability.

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Title: Are Spicules Related to Coronal Heating?
Authors: Athay, R. G.
2000SoPh..197...31A    Altcode:
  We suggest that the waxing and waning of chromospheric and coronal
  heating leads to a dynamic solar atmosphere which, under the right
  circumstances, may produce spicules. Little is known about the heating
  process. However, Anderson and Athay (1989a) concluded from their study
  of chromospheric heating that the heating rate per gram of chromospheric
  matter is only a small fraction of the heating rate per gram of coronal
  matter. We postulate that the increased heating rate in the corona is a
  consequence of heating charged particles as opposed to heating neutral
  atoms. This leads to a specific degree of hydrogen ionization at which
  coronal heating begins to predominate over chromospheric heating. It
  also introduces the likelihood that the waxing and waning of the
  heating rates will have relatively large consequences in the levels
  where hydrogen ionization is becoming significant. It is demonstrated
  that changes in the heating rates are capable of inducing increases
  and decreases in coronal mass comparable to the mass contained in a
  typical spicule.

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Title: Excitation of O i Lines in the Solar Chromosphere
Authors: Athay, R. Grant; Judge, Philip G.
1995ApJ...438..491A    Altcode:
  Observations of O I lines in the solar spectrum are examined to
  determine whether differences in behavior of lines of the quintet
  and triplet term systems are consistent with collisional excitation
  and/or photoexcitation of both quintets and triplets. Intensities,
  I<SUB>IR</SUB>, in near-infrared emission lines observed above the
  limb at total eclipse decrease exponentially with height h. The
  inverse scale heights (d In I<SUB>IR</SUB>/dh) for the triplet
  lines at 844.6 nm and quintet lines at 777.2 nm are found to be
  in the ration of 1.45. Ultraviolet O I emission-line intensities
  I<SUB>UV</SUB> observed on the solar disk show strong variations, and
  the distributions of triplet (130.4 nm) and quintet line intensities
  about the means are different. Variances in In I<SUB>UV</SUB> are
  found to have a triplet-to-quintet ratio of 1.50, in close agreement
  with the ratio of d In I<SUB>IR</SUB>/dh. It is shown that the simple
  assumption of collisional excitation of quintets and triplets coupled
  with collisional de-excitation of the quintets leads to the correct
  ratios for both the UV variances and d In I<SUB>IR</SUB>/dh. Also,
  under this assumption d In I<SUB>IR</SUB>/dh for the quintet lines
  is predicted to have the same value as d In I/dh at the head of the
  hydrogen Balmer continuum, which, in fact, it does. On the other hand,
  Carlsson &amp; Judge (1993) have shown that collision rates computed
  from the Vernazza, Avrett, &amp; Loeser (1981, hereafter VAL) model
  chromosphere using current estimates of O I collision strengths are
  too low to produce the observed mean intensity in O I 130.4 nm. In
  a similar sense, we find that the predicted intensity of O I 130.4
  nm is much too weak relative to O I 135.6 nm, and that the VAL mean
  models A-F cannot reproduce the observed behavior of these lines,
  even including photoexcitation by H Ly-beta. These difficulties are
  removed by increasing specific electron-atom collision rates. Such
  increases could reflect large errors in atomic cross sections close
  to threshold and/or the inadequacy of the assumptions made by VAL for
  predicting line intensities. The latter alternative a likely factor. We
  conclude that the O I UV lines are very sensitive to inhomogeneities,
  much more than more traditional chromospheric lines (e.g., Mg II k)
  which are formed over similar regions of the chromosphere. Such lines
  could therefore provide valuable diagnostics of departures of the
  chromopsheric plasma from mean models and thereby place constraints
  upon heating mechanisms, once accurate atomic data become available.

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Title: Separation of Low First Ionization Potential Ions from High
    First Ionization Potential Neutrals in the Low Chromosphere
Authors: Athay, R. Grant
1994ApJ...423..516A    Altcode:
  Spectroscopic data from two flights of the Naval Research Laboratory's
  High Resolution Telescope and Spectrograph (HRTS) are analyzed
  for evidence of variations in relative abundances in the low
  chromosphere. Comparisons of sunspot, active region, and quiet-Sun
  data from HRTS II reveal decreases of intensities of sunspot lines
  from the first ionization stages of elements with low first ionization
  potential relative to both the active region and the quiet Sun. C
  I lines, however, are more intense in the sunspot than either the
  active region or the quiet Sun. Within a sunspot in Spacelab II data,
  the C I line at 156.1 nm is near its average intensity, whereas the
  Fe II line at 156.3 is much weaker than average. Both spots suggest
  a relative high value for the C I/Fe II abundance ratio. Within the
  zone of the same magnetic polarity as the sunspot (leading polarity)
  in the Spacelab II data, the brightest plages in C I show large C I/Fe
  II intensity ratios similar to those found in the sunspot. By contrast,
  the zones of following polarity on either side of the leading polarity
  show several well-defined areas of unusually low C I/Fe II intensity
  ratios associated with dark features in C I. The plages within these
  same zones have near normal or somewhat enhanced values for the C I/Fe
  II intensity ratios. It is noteworthy, also, that many of the brightest
  areas in C I do not coincide spatially with the brightest regions in
  Fe II. Neither do the darkest areas in C I align well with the darkest
  areas in Fe II. The association of high C I/Fe II intensity ratios
  with the zone of leading polarity and low-intensity ratios with zones
  of following polarity suggests that the iron abundance is dependent
  on the field polarity and is relatively low in the sunspot and the
  brighter plages in the zone of leading polarity and relatively high
  in C I dark flocculi in zones of following polarity. Failure of the
  brightest and darkest features in C I to align with the brightest
  and darkest features in Fe II further suggests that in the case of
  these particular features the Fe II abundance may vary inversely with
  the gas pressure, as well as with magnetic polarity. Other possible
  interpretations are discussed but are considered as being less viable.

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Title: Velocity Gradients in the Chromosphere-Corona Transition Region
Authors: Athay, R. G.; Dere, K. P.
1991ApJ...381..323A    Altcode:
  Velocity data obtained from Doppler shifts of EUV spectral lines
  observed with the High Resolution Telescope and Spectrograph flown
  on Spacelab II are analyzed to determine the properties of the mean
  velocities V-bar and its spatial variance V(sigma), for chromospheric
  and transition region lines. The lines studied include the ions O I,
  C I, Fe II, C II, Si III, Si IV, and C IV. The constancy of V(sigma)
  from center to limb together with a systematic maximum redshift in
  V-bar in central disk regions is interpreted to mean that the plasma
  flow is divergent from the tops of closed field lines and that the
  cool plasma more or less fills the magnetic loops from which most of
  the radiation originates. The same is true of the hotter plasma. It
  is suggested that the crossfield component of Delta T is large and
  that the alternation from cool loops to hot loops occurs on spatial
  scales much less than 1 arcsec.

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Title: Chromospheric and Transition Region Diagnostics Using
    Emission-Line Intensities
Authors: Athay, R. G.; Dere, K. P.
1991ApJ...379..776A    Altcode:
  EUV emission-line intensities from the HRTS experiment on Spacelab 2 are
  analyzed to determine the causes of intensity variations from point to
  point on the solar surface. Chromospheric lines of O I and transition
  region lines of C II, Si IV, and C IV exhibit saturation effects that
  limit the line intensities in the brighter regions. No such effect
  is found in lines of C I, Fe II, or Si III. The chromospheric lines
  saturate because the optical thickness exceeds the thermalization depth,
  whereas the transition region lines saturate because of the geometry
  of the unresolved fine structure. The latter is assumed to consist
  of elongated cylinder-like features oriented along magnetic lines of
  force that are mainly vertical. Saturation occurs when the optical
  thickness along the axis of the cylinders exceeds unity. Estimates
  based on the observed saturation effects give fill factors for the fine
  structure 0.005 and 0.4 at 100,000 K and 30,000 K, respectively. The
  corresponding lengths of the cylinders are estimated at 1000 km and
  40 km at the two temperatures.

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Title: A Model of the Solar Chromosphere-Corona Transition Region
    Based on Classical Thermal Conduction
Authors: Athay, R. Grant
1990ApJ...362..364A    Altcode:
  A hot corona cooled by inward thermal conduction very likely results
  in a transition region whose isotherms follow a highly roughened
  surface. Assuming a checkerboard of cool peaks and hot valleys in
  surfaces of constant temperature and using the observed emission measure
  at T = 60,000 K, the ratio of the mean height of the cool peaks to the
  mean separation of peaks and valleys has a value of 160. By allowing
  nearly all of the parallel conduction flux of 1 million ergs/sq cm
  per sec at 1 million K in the hot valleys to flow across magnetic
  field lines into the cool peaks, a predicted emission measure in
  very good agreement with the low-temperature branch of the observed
  emission measure, including the Ly-alpha region, is found. This purely
  conductive model has the advantages of explaining both the observed
  emission measure curve and the wide vertical extent of the transition
  region at the limb without introducing ad hoc secondary heat sources.

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Title: Bifurcation in the Low Chromosphere
Authors: Athay, R. Grant; Dere, K. P.
1990ApJ...358..710A    Altcode:
  Bright chromospheric faculae of diameter d(c) covering an area of
  the solar disk f(c) smaller than 1 yield a predictable level of limb
  brightening. For a resolution diameter d(r), the combination of f(c) and
  d(c) leads, also, to a prediction of the fraction, phi(0), of observing
  pixels (resolution areas) that are free of facular emission. Data from
  the first flight of the High Resolution Telescope and Spectrograph of
  the U.S. Naval Research Laboratory with d(r) about 1 arcsec are used to
  measure both the level of limb brightening and phi(0) in EUV emission
  lines of O I, C I, and Fe II. The results favor f(c) about 0.9 and d(c)
  greater than about 2.5 arcssec. It is concluded that the chromospheric
  temperature rise is present over about 90 percent of the solar surface.

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Title: C iv plasma flow near active region filaments
Authors: Athay, R. Grant
1990SoPh..126..135A    Altcode:
  Selected CIVV<SUB>0</SUB> lines (lines separating adjacent regions of
  strong blue shift and strong red shift) located near the solar limb
  and oriented parallel to the radius vector from disk center are shown
  to be closely aligned with Hα dark filaments in active regions. The
  filaments, in turn, are known to lie in the vicinity of magnetic neutral
  lines. The radial orientation of the V<SUB>0</SUB> lines minimizes
  uncertainties in image registration and their location near the limb
  ensures that the observed fluid motion has major components paralleling
  V<SUB>0</SUB>. It follows that the filaments are located at sites of
  velocity shear, and, by inference, of magnetic shear. For a case in
  which a given V<SUB>0</SUB> line is observed near both east and west
  limbs, the gradient of Doppler velocity across the V<SUB>0</SUB> line
  reverses sign from one limb to the other as is expected for horizontal
  steady flow. Thus, the velocity vectors remain fixed with respect to
  the filament.

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Title: Temperature and Center-Limb Variations of Transition Region
    Velocities
Authors: Athay, R. G.; Dere, K. P.
1989ApJ...346..514A    Altcode:
  HRTS data from the Spacelab 2 mission are used to derive the
  center-limb and temperature variations of the mean velocity and the
  velocity variance in the solar chromosphere and transition zone. The
  mean velocity is found to vary much more rapidly from center to limb
  and with temperature than does the velocity variance. Also, the mean
  velocity shows a characteristic signature at some magnetic neutral
  lines in accordance with the findings of Klimchuk (1987) from Solar
  Maximum Mission (SMM) data. The velocity variance does not show a
  characteristic signature at the neutral lines but shows an inverse
  correlation with intensity. The latter is interpreted as reduced
  velocity variance in strong field regions. The results are discussed
  in terms of downflow along lines of force in magnetic arcades.

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Title: Model Solar Chromosphere with Prescribed Heating
Authors: Anderson, Lawrence S.; Athay, R. Grant
1989ApJ...346.1010A    Altcode:
  Computed model solar chromospheres for prescribed departures from
  radiative equilibrium are specified in terms of the local mechanical
  (nonradiative) heat input. The computations are fully non-LTE and
  include millions of spectral lines. From the variety of models
  considered, the requirements on the heat input for a positive
  temperature gradient, dT/dh, in different layers of the chromosphere
  are discussed. The derived radiative cooling function for different
  models show that the cooling function is model-dependent. By comparing
  the computed models with the Vernazza, Avrett, and Loeser (1981) models,
  it is shown that the VAL-C model is characterized by a total heat flux
  1.4 x 10 to the 7th ergs/sq cm/per sec, most of which is dissipated
  near the base of the temperature plateau. Half of the radiation loss
  is provided by Fe II, with Ca II, Mg II, and H playing important,
  but secondary, roles. CO molecules and H(-) are of lesser importance
  even near the temperature minimum, except in cases of minimal heating.

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Title: Chromospheric and Coronal Heating
Authors: Anderson, Lawrence S.; Athay, R. Grant
1989ApJ...336.1089A    Altcode:
  From computations for a theoretical model chromosphere matched to the
  empirical model of Vernazza, Avrett, and Loeser published in 1981,
  it is concluded that the required magnitude and mass dependence of the
  heat input are compatible with heating by sound waves whose velocity
  amplitude is near the sound speed. However, the required rate of
  heat input per gram increases markedly at the top of the neutral
  chromosphere, and a different form of heating appears necessary in
  the corona and transition region.

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Title: The Relationship Between R.M.S. Doppler Velocities and
    Temperature in the Solar Transition Region
Authors: Athay, R. Grant
1988SoPh..116..223A    Altcode:
  An attempt is made in this paper to determine the coefficient a in a
  power-law relationship of the form V<SUB>σ</SUB>~T<SUB>α</SUB> between
  the r.m.s. velocity fluctuation, V<SUB>σ</SUB> for raster images with
  3″ resolution and the temperature, T of line formation using SMM
  solar data. For T between 8000 and 10<SUP>5</SUP> K, the data suggest a
  best fit with 3/4 ≲ α &lt; 1. It is argued, however, that unresolved
  fine structure tends to reduce the observed value of V<SUB>σ</SUB> and
  that higher resolution data may yield different values for α. Skylab
  data have shown that the non-thermal line broadening velocity, ξ,
  is proportional to T<SUP>1/2</SUP>. Also, for all temperatures less
  than 10<SUP>5</SUP> K, ξ ≫ V<SUB>σ</SUB>. This latter result,
  however, is again dependent on spatial resolution and may not be
  true in observations made with sufficient spatial resolution. The
  magnitudes of both V<SUB>σ</SUB> and ξ indicate that bulk motions
  play important roles in the structure of the solar atmosphere as well
  as in its energy and momentum balance. It is important, therefore,
  to identify the true nature of such motions with better accuracy than
  is possible with currently available data.

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Title: The Origin of Solar He II Radiation
Authors: Athay, R. G.
1988ApJ...329..482A    Altcode:
  Doppler images made cospatially and nearly cotemporally in C IV and
  He II lines with the Ultraviolet Spectrometer/Polarimeter experiment
  on SMM permit a direct comparison of macroscopic velocity amplitudes
  observed for the two ions. Similarly, the line profiles for the two
  ions permit a comparison of the total line-broadening velocities, which
  are the root mean squares of the thermal and nonthermal microscopic
  velocities. Assuming that the C IV ion is predominant at 100,000 K,
  arguments are presented based on relative velocity amplitudes and
  line intensities that indicate a most probable temperature for the
  He II plasma of approximately 80,000 K. Collisional processes play a
  major role in the excitation of solar He II radiation in both active
  and quiet regions.

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Title: The hot solar envelope.
Authors: Athay, R. Grant
1988mwa..work....7A    Altcode: 1988mwa..conf....7A
  Contents: 1. Introduction. 2. The solar interior. 3. Overview of the
  solar atmosphere. 4. The photosphere. 5. The chromosphere. 6. The
  transition region. 7. The corona.

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Title: Characteristics of the Expansion Associated with Eruptive
    Prominences
Authors: Athay, R. G.; Low, B. C.; Rompolt, B.
1987SoPh..110..359A    Altcode:
  Gradients of Hα and electron scattering intensities derived from
  instantaneous radial distributions of erupting prominence material
  observed at several solar radii by Illing and Athay (1986) are often
  markedly smaller than those inferred by comparing the intensities
  observed near several radii to average prominence intensities
  observed near the limb. In this paper, we show that gradients derived
  by following individual features in their outward progression with
  time yield values that are consistent with limb observations and that
  usually exceed the values obtained from instantaneous distributions. We
  conclude from the diversity of observed gradients that the prominence
  eruption cannot be described by a self-similar expansion in which the
  expansion velocity is a function of radius and time only. However,
  we cannot rule out possible self-similar solutions that allow the
  expansion velocity to be a function of angular direction.

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Title: The Magnetic and Velocity Structure Adjacent to Solar Active
    Regions
Authors: Athay, R. Grant; Klimchuk, J. A.
1987ApJ...318..437A    Altcode:
  Results from a number of earlier papers relating velocity patterns
  observed in the C IV line at 154.8 nm to photospheric magnetic-field
  patterns are combined to develop a qualitative model of the
  magnetic-field geometry outside of the strong field areas of active
  regions. The motion is assumed to originate at the crests of magnetic
  arcades and flow downward along field lines, which are assumed to
  be elliptical in shape with the major axis in the photosphere. It is
  found that the ratio of the major axis to the minor axis of the ellipse
  must be less than two for fields under 100 G. Also, it is concluded
  that the magnetic neutral surfaces defined by the loci of horizontal
  field lines are often tilted at a large angle to the vertical at the
  altitude of the C IV emission.

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Title: Radiative Cooling in the Solar Chromosphere
Authors: Anderson, L. S.; Athay, R. G.
1987BAAS...19R.930A    Altcode:
  No abstract at ADS

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Title: Downflows in coronal loops
Authors: Athay, R. G.
1987Natur.327..685A    Altcode:
  The existence of the solar wind requires a net outflow of material at
  all depths in the solar atmosphere. Thus, the observation of a prevalent
  downflow at temperatures near 10<SUP>5</SUP> K<SUP>1,2</SUP> presents a
  considerable challenge. Two classes of flow models have been suggested,
  each involving flow along closed magnetic-field lines that extend above
  the chromosphere into the hotter transition region and corona. Type-(l)
  models<SUP>3,4,5</SUP> assume unidirectional equilibrium flows along
  field lines and rely on asymmetry in the flow and plasma properties
  to produce an apparent downflow. Type-(2) models<SUP>2,6</SUP>, by
  comparison, assume a series of episodic upflows and subsequent downflows
  along each line of force and rely on asymmetry in the plasma properties
  and flow durations to produce a statistically prevalent downflow. Here
  I argue that observational evidence strongly suggests that both types
  of flow are present but that type-(2) flow is predominant.

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Title: Excitation of Solar He II Lines
Authors: Athay, R. G.
1987BAAS...19Q.930A    Altcode:
  No abstract at ADS

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Title: Solar physics from space
Authors: Athay, R. Grant
1987sacd.proc.1169A    Altcode:
  The application of the High Resolution Solar Observatory (HRSO),
  an economical version of the Solar Optical Telescope, to the study
  of solar and astrophysical phenomena is considered. Recent conceptual
  changes in solar physics are discussed, with emphasis on the present
  understanding of the interactions between the solar magnetic fields
  and plasma. It is noted that the HRSO will be well suited to the
  investigation of the intense activity of the upper chromosphere and
  corona which is thought to result from magnetic field stresses generated
  in the photosphere by turbulent plasma flow.

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Title: Solar physics from space.
Authors: Athay, R. G.
1987aasi.conf.1169A    Altcode:
  The needs for the High Resolution Solar Observatory (HRSO) are
  discussed and illustrated in terms of what we presently know about
  the interactions between the solar magnetic fields and plasma.

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Title: Analysis of the prominence associated with the coronal mass
    ejection of August 18, 1980
Authors: Athay, R. Grant; Illing, Rainer M. E.
1986JGR....9110961A    Altcode:
  Coronal mass ejections detected with the Solar Maximum Mission
  coronagraph/polarimeter are often accompanied by erupting prominence
  material observed both in Hα and in the electron scattering
  continuum. Hα emission is concentrated in bright filaments moving
  radially outward. The same filaments are seen in the electron scattering
  continuum as regions of enhanced brightness. In this paper we develop
  a diagnostic method based on the observed Hα and continuum brightness
  to derive the electron density, line of sight thickness, and degree
  of ionization of hydrogen as functions of the temperature of the
  prominence filaments. Our method differs from that of Poland and Munro
  (1976) in the treatment of Ly α excitation. Analysis of data from
  the event of August 18, 1980, illustrates that the rising prominence
  material has decreased density, increased temperature, and increased
  ionization of hydrogen relative to quiescent prominences in the lower
  corona. Hydrogen is found to be 90-99% ionized, electron densities are
  near 10<SUP>8</SUP> cm<SUP>-</SUP><SUP>3</SUP>, and the temperature is
  near 20,000 K. The increased ionization is due mainly to the decreased
  density. Use of the results is made here and in an accompanying paper by
  Illing and Hundhausen to determine the total mass ejected in the event.

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Title: Radiation Loss Rates in Lyman Alpha for Solar Conditions
Authors: Athay, R. G.
1986ApJ...308..975A    Altcode:
  Mean radiation loss rates per unit volume in Lyman-alpha are computed
  for solar conditions as a function of the optical thickness of
  the radiating region. No significant corrections to the optically
  thin coronal approximation are found until the Lyman-alpha optical
  thickness at line center exceeds 100. At larger optical thicknesses
  the corrections can be large as a result of the increased ionization
  of hydrogen from absorptions in the Balmer continuum. The correction
  suggested by McClymont and Canfield (1983) is found to be too large
  for most solar applications.

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Title: Magnetic Shear. III. Hale Region 17255
Authors: Athay, R. G.; Jones, H. P.; Zirin, H.
1986ApJ...303..877A    Altcode:
  Hale active region 17255, which in many respects was the most vigorous
  active region observed during the first operational period of SMM,
  appears to lie between two large areas of flow (observed in C IV)
  converging toward the major axis of the region. In the 6-day period
  from November 6-12, 1980, the major axis of the region rotates by
  about 25 deg. Several segments of the magnetic neutral line show C
  IV flow velocities of opposite sign on either side of the neutral
  line. Those segments whose orientation is favorable for measuring
  velocity components parallel to the neutral line show evidence that
  such flow is present, which is interpreted as evidence for magnetic
  shear. This, together with other evidence, suggests that magnetic
  shear is widespread in this region, as in the two previous regions
  studied. It is concluded that magnetic shear is often associated with
  flaring activity but is not a sufficient condition for flaring to occur.

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Title: Magnetic Shear. IV. Hale Regions 16740, 16815, and 16850
Authors: Athay, R. G.; Klimchuk, J. A.; Jones, H. P.; Zirin, H.
1986ApJ...303..884A    Altcode:
  Dopplergrams made in C IV 1548 A are studied for evidence of velocity
  shear near H-alpha dark filaments and for large-scale flow convergent on
  active regions. The three regions studied support earlier conclusions
  that shear is a common property of active regions and that active
  regions may be the foci of converging plasma flow. Flow patterns
  near filaments show divergence or convergence as well as shear. Also
  the sense of the shear can be either cyclonic or anticyclonic. No
  preference is noted for convergence or divergence or for a particular
  sense of shear, and there appears to be no correlation between the
  sense of the shear and the sign of the velocity gradient normal to
  the filament. The close association of H-alpha dark filaments with
  shear lines leads to the suggestion that the filaments may arise from
  a cooling instability induced by the Bernoulli effect.

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Title: The Origin of EUV Radiation
Authors: Athay, R. G.
1986BAAS...18..686A    Altcode:
  No abstract at ADS

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Title: Radiation output.
Authors: Athay, R. G.
1986psun....2....1A    Altcode:
  Contents: Basic concepts and definitions (formation of spectra, energy
  balance, notation, escape probability and scattering depth, escape
  coefficient, creation and destruction probabilities, thermalization and
  degradation lengths, intra-atmosphere exchange probability, the source
  function, the transfer equation). Spectral diagnostics (temperature,
  density, velocity, magnetic field, and abundance diagnostics). The
  role of radiation in determining atmospheric properties (photosphere,
  line blanketing and cooling, the chromosphere, characteristics of
  chromosphere radiation loss, temperature minimum, the first and second
  temperature plateau, the transition region, the corona). Nonradial
  structure (fluid motions and magnetic fields, photosphere and
  temperature minimum region, chromosphere and transition region,
  corona). Temporal fluctuations. Challenges for the future (radiation
  diagnostics, influence of radiation on atmospheric properties,
  observations).

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Title: Chromospheric fine structure.
Authors: Athay, R. G.
1986psun....2...51A    Altcode:
  Contents: Properties of chromospheric structure (network and
  supergranule cells, network coarse and fine structure, supergranule
  cell structure, active region structure). Velocity and magnetic
  structure. Magnetohydrodynamic structure (a new look at fine structure,
  lifting forces). Major problems (energy balance, momentum balance,
  the Sun as a star).

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Title: The chromosphere and transition region — Current status
    and future directions of models
Authors: Athay, R. G.
1985SoPh..100..257A    Altcode:
  This essay on the chromosphere and transition region begins with a
  general discussion of mechanically heated atmospheres and goes on
  to discuss both descriptive and physical models. The descriptive
  models include the thermodynamic and fluid dynamic properties of
  the atmosphere as deduced from observations. Particular features of
  the models are identified with the properties of the radiation loss
  associated with the ionization of hydrogen and with the properties of
  thermal conduction. The role of spicules in chromosphere and transition
  region properties is emphasized. Physical models that attempt to
  predict the basic features of the descriptive models are reviewed.

---------------------------------------------------------
Title: Fine Structure and Dynamics of the Chromosphere and Transition
    Region and Future Directions of Models
Authors: Athay, R. G.
1985tphr.conf..205A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Magnetic shear. II - Hale region 17244
Authors: Athay, R. G.; Jones, H. P.; Zirin, H.
1985ApJ...291..344A    Altcode:
  A B-gamma(delta) sunspot group with growing delta-spots of trailing
  polarity shows evidence in H-alpha filament structure of a transition
  from a state of weak magnetic shear to a state of strong shear. The
  shear develops in the chromosphere and transition region to the
  corona overlying the photospheric magnetic neutral line separating the
  delta-spots from the leading polarity at a time when the delta-spots are
  undergoing rapid growth. Several major flares occur along the sheared
  portion of the neutral line following the shear development. Other
  segments of the neutral line far removed from the delta-spots show
  similar evidence of shear in the H-alpha filament structure and in C
  IV velocity patterns as well. These 'quiescent' regions of shear are
  relatively steady or decaying with time and show very little related
  activity.

---------------------------------------------------------
Title: Magnetic shear. I - Hale region 16918
Authors: Athay, R. G.; Jones, H. P.; Zirin, H.
1985ApJ...288..363A    Altcode:
  Material motion observed in spectral lines of C IV, C II, and Ca
  II formed in the chromosphere-corona transition region and upper
  chromosphere exhibits patterns that are closely identified with magnetic
  field structure at photospheric levels. Assuming that the fluid flow
  follows magnetic lines of force, the authors use chromospheric and
  transition region Dopplergrams to infer the broad features of the
  magnetic field geometry in these upper layers. For Hale region 16918
  they find an area in the transition region and upper chromosphere,
  centered roughly over the photospheric magnetic neutral line, in which
  the lines of force show a strong tendency to parallel the photospheric
  neutral line. The authors interpret this as evidence for magnetic shear,
  which is pronounced in the upper layers of the atmosphere.

---------------------------------------------------------
Title: Fine structure and dynamics of the chromosphere and transition
    regionand future directions of models.
Authors: Athay, R. G.
1985MPARp.212..205A    Altcode:
  It is argued that solar fine structure should be studied with the intent
  of answering questions whose interest extends beyond solar physics. The
  fine structure of the chromosphere and transition region is discussed
  from the standpoint of its role in determining the global and mesoscale
  structure of the atmosphere and as an indicator of the basic energy
  and momentum inputs to the atmosphere. Conversely, the radiation losses
  from the global atmosphere are discussed in terms of the fine structure.

---------------------------------------------------------
Title: An implementation plan for priorities in solar-system space
    physics
Authors: Krimigis, Stamatios M.; Athay, R. Grant; Baker, Daniel; Fisk,
   Lennard A.; Fredricks, Robert W.; Harvey, John W.; Jokipii, Jack R.;
   Kivelson, Margaret; Mendillo, Michael; Nagy, Andrew F.
1985STIN...9014154K    Altcode:
  The scientific objectives and implementation plans and priorities
  of the Space Science Board in areas of solar physics, heliospheric
  physics, magnetospheric physics, upper atmosphere physics,
  solar-terrestrial coupling, and comparative planetary studies are
  discussed and recommended programs are summarized. Accomplishments
  of Skylab, Solar Maximum Mission, Nimbus-7, and 11 other programs are
  highlighted. Detailed mission plans in areas of solar and heliospheric
  physics, plasma physics, and upper atmospheric physics are also
  described.

---------------------------------------------------------
Title: Analysis of HI Balmer-alpha Emission from an Eruptive
    Prominence above 3 Solar Radii
Authors: Illing, R. M. E.; Athay, R. G.; Hundhausen, A. J.
1985BAAS...17..514I    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Dynamics of the Chromosphere and Transition Region
Authors: Athay, R. G.
1985IAUTA..19..108A    Altcode: 1985IAUT...19..108A
  No abstract at ADS

---------------------------------------------------------
Title: The origin of spicules and heating of the lower transition
    region
Authors: Athay, R. G.
1984ApJ...287..412A    Altcode:
  A model of the solar corona and transition region is proposed in which
  the atmosphere is kinematic rather than static. The kinematic character
  results from an assumed lack of stationarity in the energy input, which
  is considered to fluctuate both spatially and temporally. Fluctuations
  in the energy input lead to two types of atmospheric regions: one
  that is experiencing a diminishing heating rate and another that is
  experiencing an increasing heating rate. Regions of diminishing heating
  are associated with decreasing temperatures and downflow, whereas
  regions of increasing heating are associated with rising temperatures
  and upflow. Spicules are a possible manifestation of the upflow as an
  aftermath of the downflow. The heating of spicule material results in
  an emission measure closely resembling that observed in the temperature
  range 30,000-300,000 K.

---------------------------------------------------------
Title: Are Extreme Ultraviolet Bursts Members of the Flare Family
Authors: Athay, R. G.
1984SoPh...93..123A    Altcode:
  A number of properties of EUV bursts are found to be consistent with
  the conclusion that they are at the low energy extreme of the family
  of events including flares. The incidence of EUV bursts exceeds that of
  flares by over two orders of magnitude, which suggests the possibility
  that, in total, they may be as important energetically as flares. The
  faster EUV bursts have light curves resembling those observed in hard
  X-rays at the times of flares.

---------------------------------------------------------
Title: SMM / Solar Maximum Mission / UVSP Observations of the
    Distribution of Transition Region Oscillations and Other Properties
    in a Sunspot
Authors: Henze, W.; Tandberg-Hanssen, E.; Reichmann, E. J.; Athay,
   R. G.
1984SoPh...91...33H    Altcode:
  Observations of a sunspot in the CIV line at 1548 Å formed in the
  transition region have been analyzed to obtain the time variations
  and/or mean values of the velocity, intensity, longitudinal magnetic
  field, and line width. Oscillations with periods between approximately
  110 and 200 s are observed only over the umbra where the transition
  region magnetic field is highest and the line width is smallest. When
  periodic intensity variations occur at the same frequency as the
  velocity oscillations, the peak intensities occur slightly before the
  maximum upward motions. No periodic variations in the transition region
  magnetic field have been detected. Scatter diagrams are presented which
  show possible relationships between the flow velocity, emission line
  intensity, line width, and transition region magnetic field.

---------------------------------------------------------
Title: Probabilistic equations for line source functions: accurate
    and approximate.
Authors: Athay, R. G.
1984mrt..book...79A    Altcode: 1984mrt..conf...79A
  An exact expression for line source functions is derived in terms of
  the local and non-local probabilities for gaining and losing photons
  in the bandwidth of the line. Examples of exact and approximate
  solutions are given for Voigt profiles, for constant and variable
  Planck function, and for constant and variable Doppler width. Two
  approximate second-order differential equations are derived in terms of
  purely local probabilities for gaining and losing photons. Examples of
  solutions using terms in first-order differentials demonstrate that
  the approximate equations are quite accurate for both constant and
  variable Planck functions.

---------------------------------------------------------
Title: Probabilistic Equations for Line Source Functions - Accurate
    and Approximate
Authors: Athay, R. G.
1984mrt..book...29A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Vector Magnetic Fields in Prominences - Part Three - Hei d3
    Stokes Profile Analysis for Quiescent and Eruptive Prominences
Authors: Athay, R. G.; Querfeld, C. W.; Smartt, R. N.; Landi
   Degl'Innocenti, E.; Bommier, V.
1983SoPh...89....3A    Altcode:
  Observations of linear polarization in two resolved components of HeI
  D<SUB>3</SUB> are interpreted using the Hanle effect to determine vector
  magnetic fields in thirteen prominences. As in all vector magnetic
  field measurements, there is a two-fold ambiguity in field direction
  that is symmetric to a 180° rotation about the line-of-sight. The
  polar angles of the fields show a pronounced preference to be close to
  90° from the local solar radius, i.e., the field direction is close
  to horizontal. Azimuth angles show internal consistency from point to
  point in a given prominences, but because of the rotational symmetry,
  the fields may be interpreted, in most cases, as crossing the prominence
  either in the same sense as the underlying photospheric fields or in
  the opposite sense.

---------------------------------------------------------
Title: Fluid motions in the solar chromosphere-corona transition
    region. IV - Mass motions over sunspot umbrae
Authors: Gurman, J. B.; Athay, R. G.
1983ApJ...273..374G    Altcode:
  Doppler velocity measurements in the C IV resonance line λ1548.19 have
  been obtained over the umbrae of eight sunspots with the Ultraviolet
  Spectrometer and Polarimeter (UVSP) on the Solar Maximum Mission. The
  velocity bandpass of these observations is approximately ±30 km
  s<SUP>-1</SUP>, and their spatial resolution is 3" × 3". Although a
  few individual resolution elements display flow velocities ∼ ±15
  km s<SUP>-1</SUP> relative to the quiet network, we measure a mean
  upflow of (1.2 ± 5.6) km s<SUP>-1</SUP> when averaged over all the
  resolution elements. Means over individual umbrae frequently show
  smaller variances, which is evidence for a real distribution of umbral
  transition region velocity fields. <P />We also examine two possible
  explanations for the smaller nonthermal broadening of the sunspot C
  IV line.

---------------------------------------------------------
Title: Fluid motions in the solar chromosphere-corona transition
    region. III - Active region flows from wide slit Dopplergrams
Authors: Athay, R. G.; Gurman, J. B.; Henze, W.
1983ApJ...269..706A    Altcode:
  Large-scale velocity patterns observed in C IV in active regions show
  close correspondence with photospheric magnetic field patterns. In a
  large majority of cases, magnetic neutral lines show blueshift on their
  sun center side and redshift on their limbward side. The large-scale
  flow is consistent with widespread loop structure having downflow in
  both legs of the loops. Studies of individual bright loops, confirm
  that the flow is downward in most cases. However, an important subset
  of loops show flow from one end of the loop to the other.

---------------------------------------------------------
Title: Photospheric, Chromospheric and Transition-Region Flows in
    AR 2517
Authors: Athay, R. G.; Jones, H. P.; Zirin, H.
1983BAAS...15Q.719A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Fluid motions in the solar chromosphere-corona transition
    region. I - Line widths and Doppler shifts for C IV
Authors: Athay, R. G.; Gurman, J. B.; Henze, W.; Shine, R. A.
1983ApJ...265..519A    Altcode:
  Matrices of line profiles for C IV, λ1548, observed with a 3" aperture
  and sampled in 3" intervals in active and quiet solar regions, show
  a pronounced tendency for line width to increase with increasing
  redshift. The correlation between increasing central intensity of the
  line and increasing redshift demonstrated by some authors is clearly
  present in these data but is weakened by the not infrequent occurrence
  of regions of strong redshift but with low intensity. Sunspots show
  both systematically narrower line profiles over umbral areas and strong
  redshifts on their Sun-center side. The latter result is consistent
  with a reverse Evershed effect.

---------------------------------------------------------
Title: Responses of transition region models to magnetic field
    geometry and downflow velocities
Authors: Athay, R. G.
1982ApJ...263..982A    Altcode:
  Models of the chromosphere-corona transition region in which energy
  is supplied by thermal conduction and downflow of hot material and
  lost by radiation are investigated for different magnetic field
  geometries and for different dependences of downflow velocity on the
  local temperature. It is shown that neither the field geometry nor
  the dependence of velocity on temperature are important factors in
  the comparison of empirical and theoretical emission measures. Each
  of the models works well for T higher than 250,000 K but fails badly
  for temperatures lower than that.

---------------------------------------------------------
Title: Fluid motions the solar chromosphere-corona transition
    region. II Active region flows in C IV from narrow slit Dopplergrams
Authors: Athay, R. G.; Gurman, J. B.; Shine, R. A.; Henze, W.
1982ApJ...261..684A    Altcode:
  From a study of Dopplergrams made with two narrow slits in the opposite
  wings of the C IV line, N λ1548, we find widespread evidence for
  steady flow patterns associated with large sunspots and, on a larger
  scale, with active region magnetic field patterns. The characteristic
  sunspot flow is in the reverse Evershed sense with a substantial
  vertical component. Active region flows indicate oppositely directed
  velocities with mainly horizontal components on either side of magnetic
  neutral lines. Some neutral lines show flow toward the neutral line,
  whereas others show flow away from the neutral line.

---------------------------------------------------------
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: Chromospheric structure in relation to radiation losses.
Authors: Athay, R. G.
1982SAOSR.392A...3A    Altcode: 1982csss....2....3A
  It is assumed that cool star chromospheres are heated by mechanical
  energy dissipation that depends quasilinearly on density and cooled
  by radiation loss and it is shown that the basic properties of
  chromospheres are determined by the ionization of hydrogen. It is
  hydrogen ionization that provides the freedom for chromospheres
  to adjust their radiation losses to balance the prescribed
  heat input, resulting in an extended region of low temperature
  gradient. Chromospheric radiation losses in cool stars occur mainly in
  the strongest spectral lines at wavelengths greater than about 2000
  A and the fraction of the chromosphere is effectively thin. The most
  important lines include Ca II H and K and the infrared triplet and Mg II
  h and k. The strong lines of other abundant species, are less important
  because their high excitation energies reduce the collisional excitation
  rates. Lyman alpha losses are important because of the overwhelming
  abundance of hydrogen. However, the inability of chromospheres to
  adjust their Lyman alpha losses limits the geometrical thickness of
  the effectively thin region in Lyman alpha and limits the total Lyman
  alpha flux.

---------------------------------------------------------
Title: Steady flows in the solar transition region observed with SMM
Authors: Gebbie, K. B.; Hill, F.; November, L. J.; Gurman, J. B.;
   Shine, R. A.; Woodgate, B. E.; Athay, R. G.; Tandberg-Hanssen, E. A.;
   Toomre, J.; Simon, G. W.
1981ApJ...251L.115G    Altcode:
  Steady flows in the quiet solar transition region have been observed
  with the Ultraviolet Spectrometer and Polarimeter experiment on the
  Solar Maximum Mission (SMM) satellite. The persistent vertical motions
  seen at disk center have spatial rms amplitudes of 1.4 km/s in the C
  II line, 3.9 km/s in Si IV, and 4.2 km/s in C IV. The amplitudes of
  the more horizontal flows seen toward the limb tend to be somewhat
  higher. Plots of steady vertical velocity versus intensity seen at
  disk center in Si IV and C IV show two distinct branches.

---------------------------------------------------------
Title: Stellar chromospheres and coronae
Authors: Athay, R. G.
1981ApJ...250..709A    Altcode:
  An attempt is made to provide an updated explanation of the essential
  structure features of the solar atmosphere based, where possible,
  on the constraints imposed by the physics of the solar plasma. The
  chromospheric temperature plateaus are identified with plasma properties
  determined by the degree of ionization of hydrogen. This is possible
  because the energy loss is solely by radiation and the nature of
  the radiation loss changes rather discontinuously as the degree of
  ionization increases. The ionization conditions are discussed in
  relation to other stars. In the case of the transition region and
  the corona, the plasma is essentially fully ionized and, in addition,
  the role of radiation enters somewhat indirectly.

---------------------------------------------------------
Title: Chromosphere-corona transition region models with magnetic
    field and fluid flow
Authors: Athay, R. G.
1981ApJ...249..340A    Altcode:
  Energy balance models of the chromosphere-corona transition region are
  computed for a segment of average sun network using assumed magnetic
  field geometry. The energy fluxes considered include radiation,
  conduction, enthalpy, and gravitational potential energy, but do not
  include mechanical heating. Two classes of models are considered:
  conduction driven and flow driven. In the former class, the thermal
  conductive flux vanishes at the base of the transition region, and
  in the latter class the thermal conductive flux increases with depth
  or remains constant. The conduction driven models require primarily
  outflow, whereas the flow driven models require downflow. Flow-driven
  models give best overall agreement with observations for T between
  300,000 and 1,000,000 K, but neither class of models is satisfactory for
  T less than 100,000 K. It is concluded however, that the flow-driven
  models have ample energy supply even in the low transition region,
  and there is no apparent need for additional energy sources.

---------------------------------------------------------
Title: The chromosphere and transition region.
Authors: Athay, R. G.
1981NASSP.450...85A    Altcode: 1981suas.nasa...85A
  An empirical definition of the chromosphere and chromosphere-corona
  transition region is presented. Various general characteristics of
  the chromosphere are described and include: radiative equilibrium;
  spatial and temporal fluctuations; spectral characteristics; and
  thermodynamic structure.

---------------------------------------------------------
Title: Stellar chromospheres and coronae.
Authors: Athay, R. G.
1981BAAS...13..547A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Preliminary observations and results obtained with the
    ultraviolet spectrometer and polarimeter
Authors: Tandberg-Hanssen, E.; Cheng, C. C.; Athay, R. G.; Beckers,
   J. M.; Brandt, J. C.; Chapman, R. D.; Bruner, E. C.; Henze, W.; Hyder,
   C. L.; Gurman, J. B.
1981ApJ...244L.127T    Altcode:
  New observation with the Ultraviolet Spectrometer and Polarimeter
  (UVSP) of a number of manifestations of solar activity obtained
  during the first three months of Solar Maximum Mission operations are
  presented. Attention is given to polarimetry in sunspots, oscillations
  above sunspots, density diagnostics of transition-zone plasmas in
  active regions, and the eruptive prominence - coronal transient link.

---------------------------------------------------------
Title: SMM/UVSP Observations of Oscillations and Other Properties
    in a Sunspot
Authors: Henze, W.; Tandberg-Hanssen, E.; Reichmann, E. J.; Shine,
   R. A.; Woodgate, B. E.; Gurman, J. B.; Athay, R. G.
1981BAAS...13..858H    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Stellar Chromospheres and Coronae
Authors: Athay, R. G.
1981BAAS...13Q.545A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Active Region Flows in the Transition Region
Authors: Athay, R. G.; Gurman, J. B.; Henze, W.
1981BAAS...13..914A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Solar maximum mission experiment: Ultraviolet spectroscopy
    and polarimetry on the solar maximum mission
Authors: Tandberg-Hanssen, E.; Cheng, C. C.; Woodgate, B. E.; Brandt,
   J. C.; Chapman, R. D.; Kenney, P. J.; Michalitsianos, A. G.; Shine,
   R. A.; Athay, R. G.; Beckers, J. M.; Bruner, E. C.; Rehse, R. A.;
   Schoolman, S. A.; Gurman, J. B.; Hyder, C. L.; Henze, W.
1981AdSpR...1m.275T    Altcode: 1981AdSpR...1..275T
  We describe the Ultraviolet Spectrometer and Polarimeter (UVSP) on the
  Solar Maximum Mission (SMM) spacecraft. The instrument, which operates
  in the wavelength range 1150 - 3600 Å, has a spatial resolution of 2-3
  arc sec and a spectral resolution of 0.02 Å FWHM in second order. A
  Gregorian telescope, focal length 1.8 m, feeds a 1 m Ebert-Fastie
  spectrometer. A polarimeter comprising rotating Mg F<SUB>2</SUB>
  waveplates can be inserted behind the spectrometer entrance slit and
  allows all four Stokes parameters to be determined. The observing
  modes include rasters, spectral scans, velocity measurements, and
  polarimetry. Finally, we present examples of initial observations made
  since launch.

---------------------------------------------------------
Title: Observations of mass motions in ctive regions.
Authors: Athay, R. G.
1981sars.work...83A    Altcode:
  Results of observations from Skylab, ground-based instruments and OSO 8
  indicators of mass motions in solar active regions are reviewed. The
  flows detected are classified as steady, including supergranular
  flow, Evershed flow and chromosphere and transition region flows;
  quasi-steady, including fibril motions, spicules, coronal rain and
  coronal loops; transient, including surges and sprays and EUV bursts;
  oscillations; and nonthermal line widths due to unresolved fluid
  motions.

---------------------------------------------------------
Title: Solar Maximum Mission experiment: ultraviolet spectroscopy
    and polarimetry on the Solar Maximum Mission.
Authors: Tandberg-Hanssen, E.; Woodgate, B. E.; Athay, R. G.; Beckers,
   J. M.; Brandt, J. C.; Bruner, E. C.; Chapman, R. D.; Cheng, C. -C.;
   Gurman, J. B.; Hyder, C. L.; Kenney, P. J.; Michalitsianos, A. G.;
   Rehse, R. A.; Schoolman, S. A.; Shine, R. A.; Henze, W.
1981hea..conf..275T    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Steady Flows in the Solar Transition Region Observed with
    the UVSP Experiment on SMM
Authors: Gebbie, K. B.; Hill, F.; Toomre, J.; November, L. J.; Simon,
   G. W.; Athay, R. G.; Bruner, E. C.; Rehse, R.; Gurman, J. B.; Shine,
   R. A.; Woodgate, B. E.; Tandberg-Hanssen, E. A.
1980BAAS...12..907G    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Transition Region Oscillations in Sunspots
Authors: Gurman, J. B.; Shine, R. A.; Woodgate, B. E.;
   Tandberg-Hanssen, E. A.; Bruner, E. C.; Schoolman, S. A.; Athay, R. G.
1980BAAS...12..906G    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Temporal and spatial fluctuations in strengths and widths of
    C IV and SI II lines observed with OSO 8
Authors: Athay, R. G.; White, O. R.
1980ApJ...240..306A    Altcode:
  The spatial and temporal fluctuations in widths and strengths
  are examined for three EUV lines: C IV, wavelength 1548 and Si II,
  wavelengths 1816.93 and 1817.45 observed with an effective aperture of
  2 x 20 arcsec and with time resolution less than 30 s. Three classes
  of fluctuations with substantial amplitude are identified: (1) short
  term fluctuations with a characteristic fluctuation time near 5 min,
  (2) intermediate term fluctuations with a characteristic time of 30
  min or longer, and (3) large scale spatial fluctuations associated
  with supergranule cell, network, and plage structure.

---------------------------------------------------------
Title: Impulsive EUV bursts observed in C iv with OSO-8
Authors: Athay, R. G.; White, O. R.; Lites, B. W.; Bruner, E. C., Jr.
1980SoPh...66..357A    Altcode:
  Time sequences of profiles of the λ1548 line of C IV containing 51 EUV
  bursts observed in or near active regions are analyzed to determine the
  brightness, Doppler shift and line broadening characteristics of the
  bursts. The bursts have mean lifetimes of approximately 150s, and mean
  increases in brightness at burst maximum of four-fold as observed with a
  field of view of 2″ × 20″. Mean burst diameters are estimated to be
  3″, or smaller. All but three of the bursts show Doppler shifts with
  velocities sometimes exceeding 75 km s<SUP>−1</SUP>; 31 are dominated
  by red shifts and 17 are dominated by blue shifts. Approximately
  half of the latter group have red-shifted precursors. We interpret
  the bursts as prominence material, such as surges and coronal rain,
  moving through the field of view of the spectrometer.

---------------------------------------------------------
Title: The Ultraviolet Spectrometer and Polarimeter (UVSP) on the
    Solar Maximum Mission and Initial Results in Polarimetry
Authors: Tandberg-Hanssen, E.; Athay, R. G.; Bruner, E. C.; Beckers,
   J. M.; Brandt, J. C.; Chapman, R. D.; Cheng, C. C.; Gurman, J.;
   Henze, W.; Brown, Teledyne; Hyder, C. L.; Michalitsianos, A. G.;
   Shine, R. A.; Schoolman, S. A.; Woodgate, B. E.
1980BAAS...12..534T    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Temporal and Spatial Fluctuations in Widths of Solar EUV Lines
Authors: Athay, R. G.; White, O. R.
1980LNP...114...53A    Altcode: 1980IAUCo..51...53A; 1980sttu.coll...53A
  No abstract at ADS

---------------------------------------------------------
Title: Chromospheric oscillations observed with OSO 8. IV. Power
    and phase spectra for C IV.
Authors: Athay, R. G.; White, O. R.
1979ApJ...229.1147A    Altcode:
  OSO 8 time series of profiles of the C IV line at 1548 A and for the
  continuum near 1900 A are analyzed to determine the properties of
  solar oscillations in the lower transition region and to obtain phase
  delays between the temperature-minimum region and the lower transition
  region. Power-spectrum and phase-spectrum analyses of 30-min data
  segments are performed. It is found that: (1) short-duration periodic
  oscillations in the 3-5 mHz band occur in about 20% of the 30-min
  segments; (2) these oscillations are of solar origin and have phase
  delays with height characteristic of waves propagating vertically
  with phase speeds close to the sound speed; (3) maximum intensity
  lags maximum redshift by about 120 deg and leads maximum blueshift
  by approximately 60 deg; (4) most of the solar fluctuations in the C
  IV line are low-amplitude aperiodic events in which the fluctuation
  in intensity is correlated with blueshift; and (5) the intensity
  fluctuations are proportional to mean intensity (A) in bright solar
  features but to the square root of A in quiet solar regions.

---------------------------------------------------------
Title: Chromospheric Oscillations Observed with OSO 8. II. Average
    Phase Spectra for SI II.
Authors: White, O. R.; Athay, R. Grant
1979ApJS...39..347W    Altcode:
  Time series of intensity and Doppler-shift fluctuations in the Si II
  emission lines λ1816.93 and λ1817.45 are Fourier analyzed to determine
  the frequency variation of phase differences between intensity and
  velocity and between these two lines formed 300 km apart in the middle
  chromosphere. Average phase spectra show that oscillations between
  2 and 9 mHz in the two lines have time delays from 35 to 40s, which
  is consistent with the upward propagation of sound waves at 8. 7.5
  km s<SUP>-1</SUP>. In this same frequency band near 3 mHz, maximum
  brightness leads maximum blueshift by 600. At frequencies above 11 mHz
  where the power spectrum is flat, the phase differences are uncertain,
  but approximately 65% of the cases indicate upward propagation. At these
  higher frequencies, the phase lead between intensity and blue Doppler
  shift ranges from 0° to 180° with an average value of 90°. However,
  the phase estimates in this upper band are corrupted by both aliasing
  and randomness inherent to the measured signals. Phase differences in
  the two narrow spectral features seen at 10.5 and 27 mHz in the power
  spectra are shown to be consistent with properties expected for aliases
  of the wheel rotation rate of the spacecraft wheel section.

---------------------------------------------------------
Title: Chromospheric oscillations observed with OSO 8. I. Basic
    measurements and analytical methods.
Authors: White, O. R.; Athay, R. G.
1979ApJS...39..317W    Altcode:
  Time series of solar EUV line profiles observed with OSO 8 have
  fluctuations arising from instrumental, satellite, and solar
  sources. The fluctuations are partly noiselike, partly from long-term
  drifts, and partly from periodic oscillations. The Sun contributes to
  all three types of fluctuations. However, instrumental effects also
  contribute to the noiselike fluctuations and long-term drifts, and
  the satellite wheel rotation induces spurious oscillations. Analytical
  procedures are discussed for applying Fourier transform techniques and
  related statistical tests to isolate the different types of fluctuations
  and, in particular, to study the solar oscillations. Strong solar
  oscillations are identified near 3 mHz, and aliases of the wheel
  rotation frequency are identified at 10.5 and 27 mHz.

---------------------------------------------------------
Title: Solar maximum ultraviolet spectrometer and polarimeter
Authors: Tandberg-Hanssen, E.; Woodgate, B. E.; Brandt, J. C.;
   Chapman, R. D.; Hyder, C. L.; Michalitsianos, A. G.; Shine, R. A.;
   Athay, R. G.; Beckers, J. M.; Bruner, E. C.
1979SPIE..184..264T    Altcode:
  The objectives of the UVSP experiment are to study solar ultraviolet
  radiations, particularly from flares and active regions, and to measure
  constituents in the terrestrial atmosphere by the extinction of sunlight
  at satellite dawn and dusk. The instrument is designed to observe the
  Sun at a variety of spectral and spatial resolutions in the range from
  1150 to 3600 A. A Gregorian telescope with effective focal length of
  1.8 m is used to feed a 1 m Ebert-Fastie spectrometer. A polarimeter
  containing rotatable magnesium fluoride waveplates is included behind
  the spectrometer entrance slit and will allow all four Stokes parameters
  to be determined. Velocities on the Sun can also be measured. The
  instrument is controlled by a computer which can interact with the data
  stream to modify the observing program. The observing modes, including
  rasters, spectral scans, velocity measurements, and polarimetry, are
  also described along with plans for mission operations, data handling,
  and analysis of the observations.

---------------------------------------------------------
Title: Chromospheric and coronal heating by sound waves.
Authors: Athay, R. G.; White, O. R.
1978ApJ...226.1135A    Altcode:
  An upper limit to the energy flux in sound waves in the chromosphere
  is obtained from observational data, and the required heat input to
  the chromosphere is examined. The height dependence of both the energy
  flux in sound waves and the required heat input is analyzed. It is
  found that the heat input has two maxima and that the flux in sound
  waves is too low to produce the second maximum. It is concluded
  that the low chromosphere may be heated by sound waves but that a
  different mechanism heats the upper chromosphere, transition region,
  and corona. The possibility is considered that the microturbulence
  derived from line broadening is produced by Alfven waves rather than
  sound waves.

---------------------------------------------------------
Title: Spectrum synthesis of chromospheric lines of Si II and Si III.
Authors: Tripp, D. A.; Athay, R. G.; Peterson, V. L.
1978ApJ...220..314T    Altcode:
  Profiles of emission lines of Si II and Si III in the EUV spectrum
  near the solar limb and near disk center are synthesized using a range
  of temperature and microturbulence models. Reasonably good agreement
  between computed and observed profiles near disk center is obtained with
  the Vernazza, Avrett, and Loeser (VAL, 1973) temperature model but with
  a modified microturbulence model. The adopted microturbulent velocity is
  equal to the mean thermal velocity of hydrogen temperatures above 7000
  K and, at lower temperatures, decreases linearly to a value of 1 km/s in
  the low chromosphere. The 20,000-K temperature plateau in the VAL model
  is found to be of importance in determining the central intensities
  in the Si II lines at 1816, 1265, and 1533 A, and in determining the
  total intensity of the Si III line at 1206 A. The VAL temperature model
  with modified microturbulence does not give good agreement with the
  observed profiles near the solar limb. This failure is attributed to
  departures from spherical symmetry in the temperature and density model.

---------------------------------------------------------
Title: Solar EUV emission line profiles of Si  ii and Si iii and
    their center to limb variations
Authors: Nicolas, K. R.; Brueckner, G. E.; Tousey, R.; Tripp, D. A.;
   White, O. R.; Athay, R. G.
1977SoPh...55..305N    Altcode:
  Spectral line profiles of Si II and Si III are presented which were
  observed both at solar center and near the quiet solar limb with the
  Naval Research Laboratory EUV spectrograph of ATM/SKYLAB. Absolute
  intensities and line profiles are derived from the photographic data. A
  brief discussion is given of their center-to-limb variations and of
  the optical thickness of the chromosphere in these lines. Nonthermal
  broadening velocities are found for the optically thin lines from
  their full width at half maximum intensity (FWHM).

---------------------------------------------------------
Title: Modeling the solar photosphere and chromosphere
Authors: Athay, R. G.
1977MmSAI..48..401A    Altcode:
  Some aspects of modeling the solar photosphere and chromosphere with
  allowance for the characteristics produced by hydrodynamic and magnetic
  processes, on the basis of modern solar data are examined. The problem
  of asigning heights, geometrical or optical, to specific features of
  the solar atmosphere is discussed, along with the establishment of
  reference points and height scales.

---------------------------------------------------------
Title: Chromospheric motions observed by the University of Colorado
    experiment on OSO-8
Authors: Athay, R. G.
1977MmSAI..48..509A    Altcode:
  The Harvard experiment flown on Skylab did not have a spectral
  resolution sufficient to detect Doppler shifting of chromospheric and
  chromosphere-corona transition lines. An experiment flown by the Naval
  Research Laboratory on Skylab had sufficient spectral resolution to
  study Doppler shifts, but did not have sufficient spatial and temporal
  resolution for studying oscillations. The OSO-8 experiment discussed
  in the present paper provided (for the first time) observations of the
  EUV emission lines of the chromosphere and lower transition region
  with sufficient spectral spatial, and temporal resolution to assess
  the velocities associated with chromospheric oscillations and the
  impulsive brightenings of the transition region lines. The associated
  power spectra are given and discussed.

---------------------------------------------------------
Title: Phase Differences Between Intensity and Doppler-Shift and
    Between Two EUV Emission Lines of SI II for 300 SEC and 95 SEC
    Chromospheric Oscillations.
Authors: White, O. R.; Athay, R. G.
1977uxsa.coll...13W    Altcode: 1977IAUCo..43...13W
  No abstract at ADS

---------------------------------------------------------
Title: The Solar Chromosphere and Corona: Quiet Sun (Book Review)
Authors: Athay, R. G.
1977ApL....19...29A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Power Spectrum Analysis of Time Series in Positions and
    Intensities of Solar EUV Lines Observed with OSO-8.
Authors: Athay, R. G.; White, O. R.
1977uxsa.coll...12A    Altcode: 1977IAUCo..43...12A
  No abstract at ADS

---------------------------------------------------------
Title: Preliminary results from the Orbiting Solar Observatory 8:
    transition-zone dynamics over a sunspot.
Authors: Bruner, E. C., Jr.; Chipman, E. G.; Lites, B. W.; Rottman,
   G. J.; Shine, R. A.; Athay, R. G.; White, O. R.
1976ApJ...210L..97B    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Preliminary results from the Orbiting Solar Observatory 8:
    velocities in the solar chromosphere observed in the Si II lambda
    1816 line.
Authors: Chipman, E. G.; Bruner, E. C., Jr.; Shine, R. A.; Lites,
   B. W.; Rottman, G. J.; Athay, R. G.; White, O. R.
1976ApJ...210L.103C    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Preliminary results from the Orbiting Solar Observatory 8:
    observations of optically thin lines.
Authors: Shine, R. A.; Roussel-Dupre, D.; Bruner, E. C., Jr.; Chipman,
   E. G.; Lites, B. W.; Rottman, G. J.; Athay, R. G.; White, O. R.
1976ApJ...210L.107S    Altcode:
  The University of Colorado spectrometer aboard OSO 8 has measured
  the high temperature C IV resonance lines (at 1548 and 1551 A) and
  the Si IV resonance lines (at 1393 and 1402 A) formed in the solar
  chromosphere-corona transition region. Preliminary results include
  studies of mean profiles, a comparison of cell and network profiles,
  and the behavior of the lines at the extreme solar limb.

---------------------------------------------------------
Title: Preliminary results from the Orbiting Solar Observatory 8:
    persistent velocity fields in the chromosphere and transition region.
Authors: Lites, B. W.; Bruner, E. C., Jr.; Chipman, E. G.; Shine,
   R. A.; Rottman, G. J.; White, O. R.; Athay, R. G.
1976ApJ...210L.111L    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Periodic Fluctuations in the Solar Transition Zone
Authors: Bruner, E. C., Jr.; Chipman, E. G.; Shine, R. A.; Lites,
   B. W.; Rottman, G. J.; Orrall, F. Q.; Athay, R. G.; White, O. R.
1976BAAS....8Q.313B    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Model Calculations of Chromospheric Lines Observed by OSO-8
Authors: Shine, R. A.; Lites, B. W.; Chipman, E. G.; Rousel-Dupree,
   D.; Bruner, E. C., Jr.; Rottman, G. J.; Orrall, F. Q.; Athay, R. G.;
   White, O. R.
1976BAAS....8..331S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Velocities in the Solar Chromosphere Observed in the CII
    λ1336 Line
Authors: Chipman, E. G.; Bruner, E. C., Jr.; Shine, R. A.; Lites,
   B. W.; Rottman, G. J.; Orrall, F. Q.; White, O. R.; Athay, R. G.
1976BAAS....8..312C    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: OSO-8 Observations of Mean Vertical Motions in the Solar
    Transition Region
Authors: Roussel-Dupree, D. C.; Shine, R. A.; Chipman, E. G.; Bruner,
   E. C., Jr.; Lites, B. W.; Rottman, G. J.; Orrall, F. Q.; Athay, R. G.;
   White, O. R.
1976BAAS....8..312R    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Short Period Chromospheric Oscillations Observed with OSO-8
Authors: Athay, R. G.; White, O. R.; Bruner, E. C., Jr.; Chipman,
   E. G.; Lites, B. W.; Shine, R. A.; Orrall, F. Q.
1976BAAS....8..312A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Supergranulation Velocity Fields Observed in the Solar
    Transition Region with OSO-8
Authors: November, L. J.; Toomre, J.; Gebbie, K. B.; Simon, G. W.;
   Bruner, E. C., Jr.; Chipman, E. G.; Lites, B. W.; Shine, R. A.;
   Orrall, F. Q.; Athay, R. G.; White, O. R.
1976BAAS....8..311N    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Repetitive Brightenings in Active Region Transition Zone
    Lines as Observed with OSO-8
Authors: Lites, B. W.; Hansen, E. R.; Shine, R. A.; Chipman, E. G.;
   Bruner, E. C., Jr.; Orrall, F. Q.; Athay, R. G.; White, O. R.; Rottman,
   G. J.
1976BAAS....8Q.331L    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Probabilistic radiative transfer: an integral-equation
    approach.
Authors: Athay, R. G.
1976ApJ...204..160A    Altcode:
  The kinetic equilibrium equations of radiative transfer and
  steady-state populations of energy levels are formulated in terms of
  the probabilities for photon creation, destruction, and transport. This
  new formulation is used to derive an approximate equation, a special
  case of which has been used elsewhere. The probabilistic formulation
  leads to new approaches for obtaining rapid, approximate solutions,
  and, in addition, is amenable to solution by lambda iteration.

---------------------------------------------------------
Title: The solar chromosphere and corona: Quiet sun
Authors: Athay, R. G.
1976ASSL...53.....A    Altcode: 1976scco.conf.....A; 1976assl...53.....A; 1975ASSL...53.....A
  This volume treats the chromosphere and corona of the quiet sun as a
  unified topic, stressing their common origin in the mechanical-energy
  flux generated in the hydrogen convection zone beneath the
  photosphere. It is noted at the outset that the sharply different
  physical regimes occurring in the corona and the chromosphere are
  related to the response of the atmosphere to the mechanical-energy input
  rather than to fundamentally different mechanisms of energy input. A
  broad overview of the methods and objectives of chromospheric and
  coronal studies is presented, and analytical methods for interpreting
  spectroscopic data are described. The major questions dealt with include
  structures observed in the photosphere, chromosphere, and corona;
  macroscopic motions in the solar atmosphere; solar magnetic-field
  phenomena; spectral characteristics of the chromosphere and corona;
  analyses of IR, radio, and XUV spectral data; empirical models of
  the chromosphere and corona; the chromospheric structure inferred
  from spectral lines; wave generation in the sun; and heating of the
  chromosphere and corona.

---------------------------------------------------------
Title: An Archetype Hydrogen Atmosphere Problem
Authors: Athay, R. G.; Mihalas, D.; Shine, R. A.
1975SoPh...45...15A    Altcode:
  Populations for the first three bound states and the continuum of
  hydrogen are determined for an isothermal, hydrostatic atmosphere at 20
  000 K. The atmosphere is treated as being optically thin in the Balmer
  and Paschen continua and illuminated by continuum radiation at these
  wavelengths with prescribed radiation temperatures. The atmosphere is
  optically thick in the 2-1, 3-1, 3-2 and c-1 transitions. Three stages
  of approximation are treated: radiative detailed balance in the 2-1,
  3-1 and 3-2 transitions,

---------------------------------------------------------
Title: High Resolution Spectroscopy From Orbiting Solar Observatory
VIII: Transition Zone Dynamics Over a Sunspot
Authors: Bruner, E. C., Jr.; Chipman, E. G.; Lites, B. W.; Rottman,
   G. J.; Shine, R. A.; Athay, R. G.; White, O. R.
1975BAAS....7..522B    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Persistent Velocity Fields in the Middle Chromosphere
Authors: Lites, B. W.; Bruner, E. C., Jr.; Chipman, E. G.; Shine,
   R. A.; Rottman, G. J.; White, O. R.; Athay, R. G.
1975BAAS....7..522L    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Velocities in the Solar Chromosphere Observed in the Si II
    λ1816 Line
Authors: Chipman, E. G.; Bruner, E. C., Jr.; Shine, R. A.; Lites,
   B. W.; Rottman, G. J.; White, O. R.; Athay, R. G.
1975BAAS....7..522C    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: OSO-8 Observations of Optically Thin Lines
Authors: Shine, R. A.; Rousell-Dupree, D.; Bruner, E. C., Jr.; Chipman,
   E. G.; Lites, B. W.; Rottman, G. J.; Athay, R. G.; White, O. R.
1975BAAS....7Q.552S    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Theoretical Chromospheric Flare Spectra. I: Hydrogen
    Equilibrium for the Kinematic Flare-Shock Models of Nakagawa et
    al. (1973)
Authors: Canfield, Richard C.; Athay, R. Grant
1974SoPh...34..193C    Altcode:
  We simultaneously solve the equations of radiative transfer and
  statistical equilibrium for a model hydrogen atom including Lyman-α,
  Lyman-β, Balmer-α and the Lyman, Balmer and Paschen continua. The
  model atmospheres we use are the results of Nakagawa et al. (1973)
  for a kinematic model of the chromospheric solar flare.

---------------------------------------------------------
Title: Radiation Pressure in Stellar Atmospheres with Application
    to Solar Spicules
Authors: Athay, R. G.
1974IAUS...56...23A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Chromospheric fine structure: proceedings from IAU Symposium
    no. 56 held at Surfer's Paradise, Qld., Australia, 3-7 September 1973.
Authors: Athay, R. Grant
1974IAUS...56.....A    Altcode: 1974QB528.C48......; 1974IAUS...56.....B
  No abstract at ADS

---------------------------------------------------------
Title: Problems in Coronal Physics.
Authors: Athay, R. G.
1973BAAS....5..419A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Coronal Density and Temperature Gradients
Authors: Athay, R. Grant
1973SoPh...29..357A    Altcode:
  Mean density models of the solar corona show evidence for two
  distinctive density regimes characterized by different density
  gradients. High density gradients are identified with regions of
  predominantly open magnetic lines of force and low density gradients
  are identified with regions of predominantly closed magnetic lines
  of force. Spectroscopic data yielding equivalent widths of forbidden
  lines of Fe X and Fe XIV strongly suggest that the coronal temperature
  for r &gt; 2.5 R<SUB>⊙</SUB> decreases considerably less rapidly
  in equatorial regions than r<SUP>−2/7</SUP>, which is the decrease
  predicted by conduction models with open field lines.

---------------------------------------------------------
Title: Radiation and structure of the solar atmosphere (Radiation
    et structure de l'atmosphère solaire).
Authors: Athay, R. G.; Delbouille, L.; Pierce, A. K.; Rigutti, M.
1973IAUTA..15..129A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The Effects of Departures from LTE in Stellar Spectra
Authors: Mihalas, Dimitri; Athay, R. Grant
1973ARA&A..11..187M    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: F i Ionization and Excitation Equilibrium in the Solar
    Atmosphere
Authors: Athay, R. Grant; Lites, B. W.
1972ApJ...176..809A    Altcode:
  Computations for a 15-level model Fe I atom in the solar atmosphere
  indicate that many of the Fe I spectral lines are strongly influenced
  by departures from LTE. The strong lines originating from the ground
  term and low-lying metastable terms have a strong chromospheric
  contribution. Although for many of the lines the source functions
  saturate to the Planck function near the temperature minimum
  (τ_5000 ≈ 10<SUP>-4</SUP>) and lower, the ionization equilibrium
  does not saturate to the Saha condition until τ_5000 &gt; 3 ×
  10<SUP>-3</SUP>. The low-lying levels in Fe I reach maximum absolute
  populations near τ_5000 = 3 × 10<SUP>-3</SUP>, and lines originating
  from these levels tend to be formed at atmospheric depths where τ_5000;
  ≤ 3 × 10<SUP>-3</SUP>. For high-excitation levels in Fe I, departures
  of the line source function from the Planck function extend deeper
  into the photosphere and may influence abundances derived from lines
  originating from these high lying levels. From the weakness of the
  principal Fe II lines in the far-ultraviolet (λ2599, in particular)
  relative to lines of Si II and Mg II it is suggested that the Fe II
  f-values of Corliss and Bozman are too high by a factor of the order of
  10+2. Fe I photoionization from the lowest levels may be a significant
  source of opacity in the region 1600-2000 Å.

---------------------------------------------------------
Title: A Probabilistic Formulation of the Noncoherent-Scattering
    Problem
Authors: Athay, R. Grant
1972ApJ...176..659A    Altcode:
  The noncoherent-scattering problem is formulated in terms of the
  mean intensity J, averaged over the absorption profile and the mean
  number of scatterings required for photon escape. This leads to major
  simplifications in the resultant equations for j. In particular,
  the integration over frequency is taken into account at each step,
  and it is no longer necessary to integrate the final equations over
  frequency. Also, use of the mean intensity eliminates the need to
  integrate over angle. Thus, the usual equations in three dimensions
  (optical depth, frequency, and direction angle) are replaced by a
  first-order differential equation in one dimension (mean number of
  scatterings). For certain idealized problems algebraic solutions are
  readily obtained. The method appears to offer major simplifications
  for problems dealing with multidimensional media.

---------------------------------------------------------
Title: A First Order Analysis of Variations of the Limb Darkening
    and the Shapes for Solar Fraunhofer Lilnes
Authors: Athay, R. G.; Lites, B. W.; White, O. R.; Brault, J. W.
1972SoPh...24...18A    Altcode:
  New center-to-limb measurements in FeI lines show changes in both
  the line profiles and the limb darkening curves that appear to be
  characteristic of many other solar lines. Here we seek the constraints
  placed on the atmospheric model by these effects. We find that in
  addition to a depth varying source function we must also allow the
  ratio of the continuous absorption coefficient to the total absorption
  coefficient to pass through a minimum in the mid-photosphere. Such an
  effect is consistent with inward increases of the Doppler width and
  damping constant in the upper photosphere and an inward increase of
  the ionization for both iron and hydrogen in the low photosphere.

---------------------------------------------------------
Title: A Probabilistic Formulation of the Non-Coherent Scattering
    Problem.
Authors: Athay, R. G.
1972BAAS....4R.212A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: FeI Ionization and Excitation Equilibrium in the Solar
    Atmosphere.
Authors: Lites, B. W.; Athay, R. G.
1972BAAS....4..212L    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Radiation Transport in Spectral Lines
Authors: Athay, R. Grant
1972rtsl.book.....A    Altcode: 1972QB871.A84......
  No abstract at ADS

---------------------------------------------------------
Title: Thermalization Lengths and Mean Numbers of Scatterings for
    Line Photons
Authors: Athay, R. G.; Skumanich, A.
1972lfpm.conf..167A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Radiation transport in spectral lines.
Authors: Athay, R. G.
1972GAM.....1.....A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Thermalization Lengths and Mean Numbers of Scatterings for
    Line Photons
Authors: Athay, R. Grant; Skumanich, A.
1971ApJ...170..605A    Altcode:
  A simple algebraic method is given for the derivation of approximate
  thermalization lengths, mean number of scatterings for line photons,
  and scaling laws for the maximum value of the line-source function
  in finite atmospheres. The method utilizes only the shape of the line
  absorption coefficient.

---------------------------------------------------------
Title: Hydrogen Ionization and n=2 Population for Model Spicules
    and Prominences
Authors: Poland, A.; Skumanich, A.; Athay, R. G.; Tandberg-Hanssen, E.
1971SoPh...18..391P    Altcode:
  Using slab model atmospheres that are irradiated from both sides by
  photospheric, chromospheric, and coronal radiation fields we have
  determined the ionization and excitation equilibrium for hydrogen.

---------------------------------------------------------
Title: Radiation and Structure of the Solar Atmosphere (Radiation
    et Structure de 1'Atmosphère Solaire)
Authors: Athay, R. Grant
1971IAUTB..14..110A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The Chromosphere-Corona Transition Region
Authors: Athay, R. G.
1971ASSL...27...36A    Altcode: 1971psc..conf...36A
  No abstract at ADS

---------------------------------------------------------
Title: The Problem of Consistency in Multilevel Line-Transfer
    Solutions
Authors: Athay, R. Grant
1970BAAS....2T.291A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The Ionization Equilibrium and the N = 2 Population of Hydrogen
    in Quiescent Prominences
Authors: Poland, A.; Athay, R. G.; Skumanich, A.; Tandberg-Hanssen, E.
1970BAAS....2R.338P    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The Chromospheric Abundance of Iron
Authors: Athay, R. G.
1970A&A.....7..305A    Altcode:
  A critical comparison is made between the methods of deriving the
  chromospheric iron abundance used by Pecker and Pottasch (1969) and
  by Athay (1968). It is suggested that the differences in the results
  obtained by the two methods are explainable in terms of the inherent
  inaccuracies in either of the methods. An alternative source of the
  differences is an inconsistency between Fe I and Fe n !.values.

---------------------------------------------------------
Title: A Non-Lte Line-Blanketed Solar Model
Authors: Athay, R. Grant
1970ApJ...161..713A    Altcode:
  Line-blanketing effects are evaluated for selected strong solar lines
  and for representative cases from the remaining lines. A composite
  blanketing curve representing the effect of all lines is constructed
  from the combined blanketing curves for the selected and representative
  lines. Separate composite blanketing curves are obtained for four model
  atmospheres with different assumed temperature distributions, T1. The
  blanketing functions are used to compute blanketed model atmospheres,
  whose temperature distributions are Tb. A self-consistent model for
  which Tb T1 is obtained by iteration. In the self- consistent model
  the boundary temperature is 43300 K with estimated error limits
  of +1500. It is shown that the tendency for a temperature rise at
  small r produced by the Cayrel mechanism is strongly resisted by the
  blanketing mechanism and that temperatures as high as 46000 near m =
  I0- -t0- would require substantial input of mechanical energy.

---------------------------------------------------------
Title: Theoretical Line Intensities.IX. Comment on the Effectively
    Thick Approximation
Authors: Athay, R. Grant
1970ApJ...161..709A    Altcode:
  It is shown that, in the effectively thick approximation, emission-line
  fluxes may exhibit temperature and density dependences that are very
  different from those found in the optically thin case. Under certain
  circumstances the line flux may even vary inversely with density.

---------------------------------------------------------
Title: Velocity Effects on the Profiles of Hα and Two FeI Lines
Authors: Athay, R. G.
1970SoPh...12..175A    Altcode:
  Profiles are computed for Ha and two FeI lines for a differentially
  moving atmosphere. The results show that the profiles are asymmetric
  and that velocity measurements made in the Doppler cores will often
  lead to erroneous results when the velocity gradient is significant
  in the regions of the atmosphere where the core forms.

---------------------------------------------------------
Title: A Line-Blanketed Solar Model
Authors: Athay, R. Grant
1970BAAS....2Q.181A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Emission Cores in H and K Lines. V. Asymmetries in
    K<SUB>2</SUB> and K<SUB>3</SUB>
Authors: Athay, R. Grant
1970SoPh...11..347A    Altcode:
  Enhancement of the violet K<SUB>2</SUB> emission peak results when the
  atmospheric layers at heights where K<SUB>3</SUB> forms are moving
  downward with velocities of 10-20 km/sec or when the K<SUB>2</SUB>
  layers and those immediately below are moving upward with velocities
  of 3-7 km/sec. Evidence favoring the former alternative is cited.

---------------------------------------------------------
Title: Bandwidth Requirements in Spectral Line Transfer Calculations
Authors: Athay, R. Grant
1970sfss.coll..179A    Altcode: 1970IAUCo...2..179A
  No abstract at ADS

---------------------------------------------------------
Title: Radiation and structure of the solar atmosphere.
Authors: Athay, R. G.; Pierce, A. K.; Rigutti, M.
1970IAUTA..14..111A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: A Self-Consistent Model Atmosphere Program with Applications
    to Solar OI Resonance Lines
Authors: Athay, R. Grant; Canfield, R. C.
1970sfss.coll...65A    Altcode: 1970IAUCo...2...65A
  No abstract at ADS

---------------------------------------------------------
Title: Abundance Determination in the Chromosphere
Authors: Athay, R. G.
1969cctr.conf..243A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Boundary Conditions on Model Solar Chromospheres
Authors: Athay, R. Grant
1969SoPh....9...51A    Altcode:
  It is shown that the gas pressure in the corona provides a rather
  stringent boundary condition on model chromospheres and limits the
  thickness of those regions of the chromosphere in which the temperature
  is less than 10 000 K to less than or about 2000 km.

---------------------------------------------------------
Title: Theoretical Line Intensities. VIII. Comment on the Effectively
    Thin Approximation
Authors: Athay, R. Grant
1969ApJ...157..281A    Altcode:
  The effectively thin approximation for the formation of spectral lines
  is discussed from the standpoints of photon-degradation processes and
  the random walk of scattered photons. It is shown that for some lines
  the optical thickness of the effectively thin layer is fixed by atomic
  rate coefficients and is independ- ent of the model atmosphere

---------------------------------------------------------
Title: Computed Profiles for Solar Mg b and Na D Lines
Authors: Athay, R. Grant; Canfield, Richard C.
1969BAAS....1..272A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Computed Profiles for Solar MG b- and NA D-Lines
Authors: Athay, R. Grant; Canfield, Richard C.
1969ApJ...156..695A    Altcode:
  Profiles are computed for the Doppler cores of solar Mg b- and
  Na D-lines for multilevel model atoms and for selected ranges of
  chromospheric parameters. Comparison of computed and observed profiles
  from center to limb on the solar disk yields the depth variation
  of the horizontal and vertical components of microturbulence. The
  two components are found to be of unequal amplitude for r~&gt; 1O~
  and pass through minima near r~ = 1O~. The profiles also suggest that
  fle(Tc) at Tc = 104_106 obtained from eclipse data is more reasonable
  than that of the Bilderberg model

---------------------------------------------------------
Title: Theoretical Line Intensities. VII. Wavelength and Depth
    Dependence of Line-Blanketing Effects for Pure Absorption and
    Non-Coherent Scattering
Authors: Athay, R. Grant; Skumanich, A.
1969ApJ...155..273A    Altcode:
  The processes involved in line blanketing are investigated in detail
  for a two-level atom whose spectral line is formed partially in pure
  absorption and partially in non-coherent scattering (non-LTE). Line and
  continuum interactions are included through absorption of line photons
  by continuum processes, and vice versa. Interactions with the thermal
  energy of particles are included through collisional excitations
  and de-excitations. Calculations of the "local" blanketing effect,
  designated by e, are made for lines of different equivalent widths, in
  different spectral regions, and for different absorption profiles. We
  consider an atmosphere in which B(r) is linear. In general, such an
  atmosphere is not in radiative equilibrium and requires mechanical
  energy to maintain the assumed temperature profile even if no lines
  are present in the spectrum. If lines are added to the spectrum without
  distorting B(r), the local energy requirements are changed by an amount
  e and the total energy (per unit area) is changed by an amount E =
  J'edr. For a Milne-Eddington (M-E) atmosphere in pure absorption (LTE)
  and linear B(r), E is shown to be positive (mechanical energy must be
  added to the atmosphere) and equal to the flux "blocked" out by the
  equivalent widths of the lines, »=W~H~c. In the corresponding case for
  a Schuster-Schwarzschild (S-S) atmosphere, just the reverse is true,
  E = - ~ and energy must be removed from the atmos- phere to preserve
  the linear B(r). In the limiting case of an isothermal atmosphere
  in LTE, E -p 0 for the M-E atmosphere. When scattering (non-LTE) is
  present for a M-E atmosphere, E is the same as for LTE for saturated
  lines in all spectral regions, while it is approximately the same for
  iøisaturated lines in the violet and visual spectral regions. In
  the case of the S-S atmosphere, the LTE result for the integrated
  blanketing remains unchanged. However, in both cases the local LTE and
  non-LTE blanketing effects as given by e differ appreciably, mainly in
  the degree of thermal cooling at the boundary. Equations derived to
  express the self-consistent (radiative equilibrium) problem provide,
  we believe, more accurate and numerically more tractable calculations
  of the blanketed temperature profile

---------------------------------------------------------
Title: Calculations of Solar Hydrogen Lines: Comparative Solutions
    for a Standard Line Transfer Problem
Authors: Athay, R. G.; Avrett, E. H.; Beebe, H. A.; Johnson, H. R.;
   Poland, A. I.; Cuny, Y.
1968rla..conf..169A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Degradation Lengths and Emergent Fluxes for Lyman-α and
    Lyman-β
Authors: Athay, R. G.
1968rla..conf..241A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Computed Profiles of Mg b and Na D Lines
Authors: Athay, R. G.; Canfield, R. C.
1968rla..conf..363A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Emission Cores in H and K Lines. IV: Center-to-Limb Variation
Authors: Athay, R. Grant; Skumanich, A.
1968SoPh....4..176A    Altcode:
  Calculations are made for the center-limb variations of the
  K<SUB>2</SUB> and K<SUB>3</SUB> components of the solar Ca II K line
  using an optically thick model of the chromosphere. The center-limb
  variations are shown to require an increase of Doppler width with
  height in the chromosphere and to depend critically upon the location
  of the point where Δλ<SUB>D</SUB> has increased by a factor e. Good
  agreement with observations is found when, and only when, the increase
  in Δλ<SUB>D</SUB> occurs nearly simultaneously with the increase in
  chromospheric temperature.

---------------------------------------------------------
Title: Theoretical Line Intensities.VI. Milne-Eddington Curves of
    Growth for Non-Coherent Scattering
Authors: Athay, R. Grant; Skumanich, A.
1968ApJ...152..211A    Altcode:
  Curves of growth are derived for different mixtures of non-coherent
  scattering and pure absorption and compared with similar curves computed
  by Wrubel for mixtures of coherent scattering and pure absorption. The
  curves induding fractional non-coherent scattering tend to mimic the
  pure coherent scattering curves on the linear portion of the curve
  of growth but tend to bridge over to the pure absorp- tion curves for
  very strong line

---------------------------------------------------------
Title: Emission Cores in h- and K-Lines III. The Wilson-Bappu Effect
Authors: Athay, R. Grant; Skumanich, A.
1968ApJ...152..141A    Altcode:
  Widths of the emission components, W2, of the H- and K-lines of Ca
  ii are investigated, assuming that the lines are formed in optically
  thick chromospheres with temperature increasing outward. The line
  source function S is computed from an equation relating S to the
  Planck function and the divergence of the line flux W2 is found to be
  particularly sensitive to chromospheric opacity both in the line and
  in the continuum, to the damping parameter a, and to the chromospheric
  Doppler width We interpret the results to mean that the Wilson-Bappu
  effect arises primarily from changes in Doppler width, and, fur- ther,
  that there is a tendency among the chromospheres of late-type stars
  to have approximately the same line and continuum opacities and to
  have a &lt; 3 X 1O~. To a first approximation, the intensity of the
  emission component is found to be uncorrelated with W

---------------------------------------------------------
Title: Wavelength and Depth Dependence of Line Blanketing Effects
    for Pure Absorption and Noncoherent Scattering.
Authors: Athay, R. Grant; Skumanich, A.
1968AJS....73Q...3A    Altcode:
  The processes involved in line blanketing are investigated in detail
  for a two-level atom whose spectral line is formed partially in pure
  absorption and partia~lly in non coherent scattering. Line and continuum
  interactions (back-warming) as well as interactions with the thermal
  energy of particles (local-cooling) are included. Calculations of the
  "local" blanketing effect are made for Milne-Eddington and Schuster-
  Schwarzschild atmospheres for lines of different equivalent widths, in
  different spectral regions and for different absorption profiles. Both
  back-warming and local-cooling are present to some degree at all
  depths. Generally, however, back-warming predominates near r c 1
  and local- cooling in the higher, line-forming layers. We consider
  an atmosphere in which B (T) is linear. Such an atmosphere requires
  mechanical energy to maintain the assumed B (T). The presence of
  lines changes the local energy requirements by an amount e and the
  total energy (per unit area) by an amount E= f e dr. For the case
  of pure absorption (LTE) in an AI-E atmosphere, E is shown to be
  positive (the atmosphere is cooled by the lines and energy must be
  added). The back-warming and local-cooling effects are each wavelength
  and depth dependent, sometimes reinforcing and sometimes counteract~ng
  each other. They combine to give E = ~ W, the equivalent width of the
  lines, in all cases, however. When scattering (non-LTE) is present in
  the ~tE case the back-warming effect remains relatively unchanged in
  the violet and visual regions of the spectrum but decreases markedly
  in the red. The local-cooling effectdecreasesmarkedly in all spectral
  regions. The nel effect leaves e very nearly the same for lines in the
  violet and visual, except in the surface layers, and diminishes e at
  all depths in the red. We still find E~~W in the violet and visual
  spectral regions. In the extreme case of an isothermal atmosphere,
  however, we find E = -~W, i.e., the atmosphere is now heated by the
  lines and requires an energy sink equal to the equivalent widths. The
  S-S atmosphere gives E = -~W for lines of any strength, at any
  wavelength and irrespective of whether pure absorption or scattering
  dominates. The detailed behavior of e (r) depends upon all of these
  parameter, however. A full treatment of line blanketing must include
  a proper classification of lines according to wavelength, equivalent
  width, the relative role of pure absorption versus scattering and
  the depth variation of the absorption coefficient, the latter being
  particularly important. Equations derived to express the self-consistent
  (radiative equilibrium) problem provide, we believe, more accurate and,
  numerically, more tractable calculations of the blanketed temperature
  profile.

---------------------------------------------------------
Title: Relative Abundances of O, Mg, Cr, Mn, Fe and Ni in the Solar
    Chromosphere
Authors: Athay, R. G.
1968ApL.....1...71A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Emission Cores in H and K Lines. I: The Optically Thick
    Chromosphere
Authors: Athay, R. Grant; Skumanich, A.
1968SoPh....3..181A    Altcode:
  Profiles of the H and K lines of MgII and the K line of Ca II are
  computed using a two-level atom for five model atmospheres distinguished
  from each other mainly by the location of the temperature minimum. In
  the five models the temperature minimum and the chromospheric
  temperature are adjusted to give best agreement between computed and
  observed profiles. The parameters ɛ and r<SUB>0</SUB> are prescribed
  as functions of τ from a density model of the atmosphere. By comparing
  computed and observed profiles of the K<SUB>3</SUB>, K<SUB>2</SUB>
  and inner K<SUB>1</SUB> components of the lines we determine both
  the approximate depth variation of Δλ<SUB>D</SUB> and the best of
  the temperature models. We find that the Doppler width increases
  rapidly with height in the chromosphere beginning from a value of
  1.6 km/sec at τ<SUB>0</SUB> ≈ 10<SUP>−2</SUP>. This latter
  value corresponds closely to the thermal velocity of Mg atoms in
  the upper photosphere. The preferred temperature model is one for
  which the temperature minimum occurs near τ<SUB>0</SUB>(λ 2800) ≈
  10<SUP>−4</SUP>-10<SUP>−5</SUP> with a value T<SUB>min</SUB>≲
  4200 ° and which has a temperatu near 7000 ° at τ<SUB>0</SUB> =
  10<SUP>−6</SUP> where K<SUB>2</SUB> is formed. The intensity in
  K<SUB>3</SUB> is determined largely by dΔλ<SUB>D</SUB>/dτ in the
  K<SUB>2</SUB> and K<SUB>3</SUB> regions.

---------------------------------------------------------
Title: Frequency-Dependent Line Source Functions.
Authors: Athay, R. G.; Skumanich, A.
1968AJS....73S...2A    Altcode:
  By the use of a previously described differential equation method
  for solving resonance line transfer (Skumanich, Astron. J. 71,
  871,1966) the frequency dependence of the line source function has
  been studied with the view of explaining the discrepancy between the
  derived solar minimum temperature of 42000K based on Ca II K analysis
  (Athay, R. G., and Skumanich, A., Solar Phys. 2, to be published)
  and the minimum temperature of 46000K derived from other observations
  (Bilderberg Conference, Solar Phys., to be published). Several cases
  were calculated for atmospheres with and without a chromospheric
  temperature rise. These include (1) noncoherent scattering, (2)
  coherent scattering, and (3) partially coherent scattenug in the
  atoms rest frame (for lines with a finite dispersion width). These
  calculations differ from others in that the exact scattering functions
  were used. A comparison of line profiles for the non coherent case
  with that for complete redistribution (frequency-independent source
  function) shows, in agreement with earlier results based on iterative
  solutions, that complete redistribution (or uncorrelated scattering)
  is a good approximation for this case with intensity differences
  amounting to only 5 to 7% of the continuum. Furthermore, our results
  for isothermal atmospheres corroborates, in general, the earlier (three
  frequency point) calculations of Jefferies and White (Astrophys. J. 132,
  767,1960). In the chromospheric case we find that essentially complete
  coherency is required to depress the source function by the necessary
  factor of 2 outside the Doppler core and thus allow the "radiation"
  temperature to fall below the kinetic temperature in comparison with
  the complete redistribution calculations.

---------------------------------------------------------
Title: Reply: on the Relative Abundances in the Solar Corona as
    Determined from the Ultraviolet Spectrum
Authors: Athay, R. Grant
1967ApJ...150..365A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Broadening of H and K Emission Cores and the Wilson-Bappu
    Effect.
Authors: Athay, R. Grant; Skumanich, A.
1967AJ.....72..784A    Altcode:
  Widths of K2 components W ofIl and K lines are investigated, assuming
  that they are formed in optically thick chromospheres with temperature
  increasing outward. The source * function S is computed from an equation
  relating S to the Planck function B and the divergence of the line
  flux. At very large optical depths in the line S~B. Hence 8(r) mimics
  the minimum in B (r) then rises with B (r) in the chromosphere until
  the flux divergence forces S(r) to decrease to S(ro)~~B (ro). The
  K2 maximum results from the maximum in 8(T) and, for the sun, lies
  near the edge of the Doppler core. W is investigated as a function of
  the following chromospheric parameters: line opacity TO*, continuum
  opacity Tc*, electron density ne*, temperature T*, Doppler width AND*,
  and damping parameter a*. W is particularly sensitive to TO*, Tc*,
  a*, and AND*, but relatively insensitive to T* and fle*. Changes in
  W resulting from TO*, Tc*, and a* arise from the displacement of K2
  between the Doppler core and line wings and are associated with major
  changes in the character of the profile. On the other hand, changes
  in AND* change W through a rather uniform scaling of the K2 and K3
  profile without seriously affecting the location of K2 relative to the
  Doppler core. We interpret these results to mean that the Wilson-Bappu
  effect arises primarily from changes in AND*, and, further, that there
  is a tendency among the chromospheres of all late-type stars to have
  approximately the same values of Tc*, TO*, and a*. Increases in the
  K2 intensity 12 result from increases in T* and/or increases in ne*,
  which leaves 12 uncorrelated with W. To a first approximation, 12 ne*B*
  at T5OOO 10-~.

---------------------------------------------------------
Title: On the Origin of Spicules in the Chromosphere-Corona Transition
    Region
Authors: Kuperus, Max; Athay, R. Grant
1967SoPh....1..361K    Altcode:
  Qualitative arguments are presented to show that in the
  chromosphere-corona transition region the energy which is transported
  downwards by heat conduction cannot be disposed of by radiative losses
  only. The region therefore is unstable and forced to be in motion,
  which may give rise to spicule-like phenomena.

---------------------------------------------------------
Title: An integral equation for the line source function and its
    numerical solution
Authors: Athay, R. G.; Skumanich, A.
1967AnAp...30..669A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Radiative Energy Loss from the Solar Chromosphere and Corona
Authors: Athay, R. Grant
1966ApJ...146..223A    Altcode:
  Quantitative estimates of the rate of energy loss from the solar
  chromosphere and corona by radiative processes are considered in the
  hope that these estimates will aid in identifying the mechanical energy
  input mechanism. Estimated rates of energy loss are derived partially
  from observational data and partially from a model atmosphere. A new
  theoretical basis for estimating the energy loss is derived. It is shown
  that Osterbrock's estimate is probably too high by about an order of
  magnitude. The rate of energy loss per cubic centimeter is found to
  decrease with height, whereas the rate per gram first increases with
  height and then remains constant and the rate per gram of positive
  ions is essentially constant at all heights. If it is assumed that the
  available mechanical energy can be represented by the kinetic energy
  of photospheric macroscopic motions whose rms velocity is 1 km/sec,
  a characteristic time for the conversion of mechanical energy to
  radiant energy is about 600 sec.

---------------------------------------------------------
Title: Theoretical Line Intensities. V. Solar UV Emission Lines of
    Heavy Elements
Authors: Athay, R. Grant
1966ApJ...145..784A    Altcode:
  Analysis of the solar ultraviolet emission lines for eleven elements
  heavier than helium yields values for relative abundances and a
  relationship between T and dT dk in the chromosphere-corona transition
  region. The derived abundances, with the single exception of oxygen,
  are within 30 per cent of the photo- spheric abundances found by
  Goldberg, Mtiller, and Aller. Oxygen is found to have a relative
  abundance about one-half as large as the photospheric value. In the
  chromosphere-corona transition T '12dT /dh is constant with height,
  corresponding to a constant flux of coiiducted energy.

---------------------------------------------------------
Title: Theoretical Line Intensities.IV. Source Functions and
    Equivalent Widths
Authors: Athay, R. Grant
1966ApJ...144.1159A    Altcode:
  A frequency-independent source function S8j is defined for spectral
  lines and a method of evaluating Ski simultaneously with the evaluation
  of the equivalent width of the line is discussed. The form of the
  resulting equations illustrates clearly the role of microscopic rate
  processes in determining equivalent widths.

---------------------------------------------------------
Title: Theoretical Line Intensities. I. Strong Emission Lines.
Authors: Athay, R. Grant
1965ApJ...142..724A    Altcode:
  A new method is derived for computing the contribution to the total
  intensities of emission lines formed out of thermodynamic equilibrium
  in the outer regions of stellar atmospheres. The method is much simpler
  and more easily applied than existing methods. The simplicity and ease
  of application are achieved by sacrificing information regarding the
  shape of the line and, consequently, by limiting the amount of detailed
  information that can be derived concerning the atmosphere producing
  the radiation. The method is very useful, nevertheless.

---------------------------------------------------------
Title: Theoretical Line-Intensities II Excitation of Chromospheric
    he II and Hydrogen.
Authors: Athay, R. Grant
1965ApJ...142..732A    Altcode:
  Values of bj for He ii and hydrogen are computed for a range of n, and
  Te appropriate to the upper chromosphere. The observed solar-radiation
  field is used to compute radiative-transition rates in subordinate
  transitions. Solutions are obtained for varying degrees of departure
  from radiative detailed balance in the resonance series of He ii
  and hydrogen. The calculations are made in order to establish the
  explicit dependence of bj on hypothetical departures from radiative
  detailed balance in the various transitions in the resonance series. The
  results are of immediate value for computing the expected intensities
  of the resonance series lines for hydrogen and He ii which is done
  in a following paper. No attempt is made in this paper to establish
  internal consistency between the assumed fle, Te, and departures from
  radiative detailed balance.

---------------------------------------------------------
Title: Theoretical Line Intensities. III. Solar UV Lines and Continua
    of h, he i, and he II and the Chromospheric Model
Authors: Athay, R. Grant
1965ApJ...142..755A    Altcode:
  Energy fluxes escaping the solar atmosphere are computed for the
  2-1 and 3-I lines of H, He I, and He ii and for certain subordinate
  transitions for He I and He ii, using a new technique recently developed
  by Athay (1965a). Good agreement with observed fluxes is obtained with
  a relatively simple model chromosphere consistent with the fluxes
  observed in He I singlets and triplets observed at eclipse and with
  radio data. It is shown that local density increases in spicules and
  plages will produce increased brightness in the 2-1 lines and in the
  subordinate lines of He I and He ii. The 3-1 lines tend to be formed
  higher in the atmosphere than the 2-1 lines, particularly for He ii,
  and they show smaller increases in brightness associated with local
  increases in density than do the 2-1 lines. Local changes in temperature
  result in relatively weak change in the intensities of H and He I lines.

---------------------------------------------------------
Title: Total Fluxes in Strong Emission Lines
Authors: Athay, R. G.
1965SAOSR.174..411A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The Chromospheric Spectrum at Eclipse
Authors: Athay, R. Grant
1965ASSL....1..151A    Altcode: 1965sosp.conf..151A
  No abstract at ADS

---------------------------------------------------------
Title: Source-Function Equality in Multiplets.
Authors: Athay, R. Grant
1964ApJ...140.1579A    Altcode:
  Necessary and sufficient conditions are derived for equality of
  source functions for different lines within multiplets at a given
  location in a stellar atmosphere. The approach involves an algebraic
  treatment of the statistical equilibrium equations together with a
  parametric representation of the solutions to the coupled transfer
  equations. Waddell's criterion for source-function equality within
  multiplets is shown to be sufficient but not necessary

---------------------------------------------------------
Title: Doppler Shifts and Line Broadening in Spicules.
Authors: Athay, R. Grant; Bessey, R. J.
1964ApJ...140.1174A    Altcode:
  Doppler shifts measured for solar spicuies in Ha, D3, and H (Ca ii)
  suggest that the anomalously broad lines of Ca ii (Athay 1961) are due,
  in part, to inadequate spatial resolution as suggested by Zirker (1962),
  but that this is not the primary cause of the anomalous broadening. Ha
  and H and K spicules are found to have predominantly wide profiles at
  low and intermediate heights, but at great heights the profile widths
  for most of the few remaining features are only about one-third as
  wide as at lower heights. It appears that this results mainly, however,
  from the fact that the features with narrow profiles are intrinsically
  brighter at great heights than are the features with wide profiles
  It does not appear to result from strong systematic decrease of line
  width with height for individual spicules. Only a small percentage of
  the features with wide profiles resolves into clusters of spicules
  with narrow profiles at great heights. Doppler velocities are found
  to be less than 12 km/sec for about two-thirds of equatorial spicules
  with the remaining one-third showing Doppler velocities up to about 30
  km/sec. Almost all polar spicules have Doppler velocities less than 12
  km/sec. No other significant differences between polar and equatorial
  spicules were found.

---------------------------------------------------------
Title: The Challenge of Chromospheric Physics
Authors: Athay, R. Grant
1964Sci...143.1129A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Depth of Formation of MG i Lines in the Solar Atmosphere.
Authors: Athay, R. Grant
1963ApJ...138..680A    Altcode:
  Estimates of optical depths in Mg 1 lines are obtained from their
  shapes and intensities in the Fraunhofer spectrum, their chromospheric
  intensities, and by computation using a model atmosphere. Curves
  are derived showing the relationship between the surfaces r = 1 and
  geometrical depth in the solar atmosphere as a function of wavelength
  displacement from line center.

---------------------------------------------------------
Title: Depth of Formation of MgI Lines in the Solar Spectrum.
Authors: Athay, R. Grant
1963AJ.....68..272A    Altcode:
  Estimates of optical depths in Mg' lines are made from their shapes and
  intensities in the Fraunhofer spectrum, their chromospheric intensities,
  and by computation using a model atmosphere. Curves are derived showing
  the relationship between the surfaces T = 1 and geometrical depth in
  the solar atmosphere as a function of wavelength from line center.

---------------------------------------------------------
Title: Excitation of Chromospheric he I.
Authors: Athay, R. Grant
1963ApJ...137..931A    Altcode:
  New calculations are carried out for bj for the singlet and
  triplet states of He 1, using corrected transition rates from
  our earlier analysis (Athay and Johnson 1960). The new results
  differ considerably from our earlier calculations and lead to a new
  chromospheric model, whose major changes are in the geometry of the
  helium regions. Chromospheric emission observed at the limb at heights
  above 1000 km is largely confined to spicules with electron densities,
  ,i , of the order of . Helium regions are identified as hot shells,
  having electron temperatures, T 5 X 10 , incasing colder spicule
  cores. Interspicule regions must have n &lt;= 3 X 1010 and T &gt;=
  3 X 10 . This new model is consistent with radio data at millimeter
  wavelengths and is similar to that proposed by Moriyama (1961).

---------------------------------------------------------
Title: Excitation of Chromospheric MG I.
Authors: Athay, R. Grant; House, L. L.
1963ApJ...137..601A    Altcode:
  Our earlier analysis of chromospheric Mg I data is extended to
  discussions of both empirical and theoretical departures from radiative
  detailed balance in the strong singlet and triplet lines. At 500 km,
  general agreement between the empirical and theoretical values is
  obtained for all lines, assuming an isothermal, spherically symmetric
  atmosphere. At heights of 1000 and 1500 km, however, further evidence
  is found for strong departures from spherical symmetry.

---------------------------------------------------------
Title: Coronal Ionization by Two-Step Collision Processes.
Authors: Athay, R. Grant; Hyder, Charles L.
1963ApJ...137...21A    Altcode:
  We suggest that ionization by electron impact for some coronal ions
  may take place via the double process of collisional excitation to
  metastable levels, thence collisional ionization from these excited
  levels rather than by direct ionization from the ground state. The
  relative efficiency of this double-collision process depends primarily
  on the mean decay lifetimes for the excited levels. A specific
  computation based on estimated upper limits to the mean lifetimes of
  excited levels in the Fe x-Fe xv sequence shows a flatter spectrum
  of ion densities and a somewhat lower ionization temperature than is
  obtained from direct collisional ionization from the ground state,
  assuming that the abundance of Fe x equals that of Fe xiv. The two-step
  collision mechanism permits the possibility of a density dependence
  in the ionization equilibrium.

---------------------------------------------------------
Title: Astronautical Investigations of the Sun
Authors: Athay, R. Grant
1963ASST....5....1A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Ionization and Excitation Equilibrium of CA II in the Solar
    Atmosphere.
Authors: Athay, R. Grant; Zirker, J. B.
1962ApJ...136..242A    Altcode:
  Ionization and excitation configurations for Ca ii are computed for
  conditions appropriate to the solar chromosphere. The populations
  of energy levels are found to depart sharply from the LTE values at
  corresponding values of T . The dominant ionization process of Ca ii is
  shown to be via collisions from the 3D level and to exhibit fundamental
  differences from H, He, and Mg I, as well as some similarities. For
  electron densities and temperatures such as are expected in most of
  the solar chromosphere and corona, the ratio Ca u/Ca iii is shown to
  be essentially independent of electron density rather than directly
  proportional, as predicted by the Saha equation. Computations of
  opacities and occupation numbers indicate that the Ca ii H and K lines
  in the Fraunhofer spectrum are formed near the top of the hydrogen
  temperature plateau, where T 150OO , and that the Ca ii emission from
  spicules arises from regions where T0 15000 rather than the much higher
  temperature derived from profiles of hydrogen and helium lines

---------------------------------------------------------
Title: Ionization and Excitation Equilibrium of Call in the Solar
    Atmosphere.
Authors: Athay, R. Grant; Zirker, J. B.
1962AJ.....67S.110A    Altcode:
  The ionization and excitation equilibrium of Caii is computed for
  conditions appropriate to the outer solar atmosphere. Populations of
  energy levels are found to depart sharply from the LTE populations at
  corresponding values of Te. The dominant ionization process of Caii is
  shown to be via collisions from the 3D level and to exhibit fundamental
  differences from H, He, and Mgi. For electron densities and temperatures
  such as are expected in most of the chromosphere and corona, the ratio
  Caii/Caiii is shown to be inversely proportional to electron density,
  rather than directly proportional as predicted by the Saha equation. The
  50% ionization stage of Caii is reached for Te =10000~140000, depending
  upon the degree of radiative detailed balance attained in the H and
  K lines. Computations of opacities and occupation numbers indicate
  that the Caii H and K lines in the Fraunhofer spectrum are formed near
  the top of the hydrogen temperature plateau where Te~l3 0000 and that
  Te 15 0000 in the regions within spicules and prominences where the
  Caii emission arises. % ionization stage of Caii is reached for Te
  =10000~140000, depending upon the degree of radiative detailed balance
  attained in the H and K lines. Computations of opacities and occupation
  numbers indicate that the Caii H and K lines in the Fraunhofer spectrum
  are formed near the top of the hydrogen temperature plateau where Te~l3
  0000 and that Te 15 0000 in the regions within spicules and prominences
  where the Caii emission arises. % ionization stage of Caii is reached
  for Te =10000~140000, depending upon the degree of radiative detailed
  balance attained in the H and K lines. Computations of opacities
  and occupation numbers indicate that the Caii H and K lines in the
  Fraunhofer spectrum are formed near the top of the hydrogen temperature
  plateau where Te~l3 0000 and that Te 15 0000 in the regions within
  spicules and prominences where the Caii emission arises.

---------------------------------------------------------
Title: Departures from Thermodynamic Equilibrium in Chromospheric
    MG i, CA i, and O I.
Authors: Athay, R. Grant; House, Lewis L.
1962ApJ...135..500A    Altcode:
  Comparisons of intensities of Mg I and 0 I emission lines in the
  flash-spectrum of the low chromosphere reveal evidence of marked
  departures from a Boltzmann distribution of populations of energy
  levels. These departures are in the same sense as those found earlier
  for He I, viz , an overpopulation of the levels connected to the
  ground state through optically forbidden transitions relative to the
  levels with permitted transitions. A search for a similar effect in
  the populations of the excited singlets and triplets of Ca I has not
  indicated a significant departure from a Boltzmann distribution for the
  levels studied. However, evidence is found that the ratio Ca i/Ca ii is
  much greater than would be expected in thermodynamic equilibrium. In
  the case of Mg I, the optical thickness of the chromosphere in the
  triplet lines is obtained directly from the observed intensity of the
  forbidden intercombination line X 4571 (33P-31S). Computed populations
  of energy levels for a model Mg I atom under a range of temperature
  and density show satisfactory agreement with observational data for
  choices of chromospheric temperatures and densities consistent with
  a model departing from spherical symmetry given by Thomas and Athay
  (1961, chap. 7).

---------------------------------------------------------
Title: Physics of the Solar Chromosphere (Ref. C. DE JAGER)
Authors: Thomas, R. N.; Athay, R. G.
1962ZA.....55...66T    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The Doppler Cores of Strong Fraunhofer Lines.
Authors: Athay, R. Grant
1961ApJ...134..765A    Altcode:
  A simple method for obtaining approximate values for AXD in strong
  Fraunhofer lines is applied to some of the solar lines and compared
  with results obtained by the more exact method of comparing profiles
  within multiplets of known relative theoretical strengths. Even though
  the method is crude, it gives results within about 20 per cent of the
  more accurate values. The essential agreement between results obtained
  by the two methods leads to the important conclusion that, for the
  multiplets studied, the source functions do not change appreciably
  for the different lines within the multiplet at a fixed depth in the
  atmosphere. It is further concluded that the core of the Ha line is
  thermally broadened.

---------------------------------------------------------
Title: Line Broadening in Chromospheric Spicules.
Authors: Athay, R. Grant
1961ApJ...134..756A    Altcode:
  Profiles of the H, K, X 8498 and X 8542 lines of Ca ii, H of hydrogen
  and 7772 and 7774 lines of O i for chromospheric spicules are used
  in conjunction with earlier observations of hydrogen, helium, and Ca
  IL line profiles to investigate the line-broadening mechanisms. The
  analysis tends to confirm an earlier suggestion that the Ca ii lines
  are broadened, in part, by a macroscopic motion of the ions not shared
  by the neutral atoms and that this additional velocity may arise from
  an interaction between the systematic spicule motion and magnetic
  lines of force. The analysis suggests that in optically thin lines the
  halfwidth increases slowly with height in spicules, which is borne out
  by earlier observations of the D3 line. In the H and K lines and in Ha,
  which are broadened, in part, by self-absorption, the half-widths are
  observed to decrease with height. At a mean height of about 5000 km,
  the kinetic temperature in spicules is found to be of the order of
  50000 from Hp, H , and D3 profiles. The presence of Ca ii emission in
  the spicules suggests the possibility of regions of lower temperature
  resulting from temperature gradients perpendicular to the spicule axes.

---------------------------------------------------------
Title: Further Evidence of Broadening of Call Line Profiles in
    Chromospheric Spicules by Magnetic Fields.
Authors: Athay, R. Grant
1961AJ.....66..278A    Altcode:
  X8498, and X8542 lines of Caii, HE of hydrogen and X7772 and X7774
  lines of Oi for chromospheric spicules are used in conjunction
  with earlier observations of hydrogen, helium, and Caii profiles to
  investigate the line- broadening mechanisms. The Caii profiles are all
  markedly non-Gaussian, and, with the instrumental resolution used, are
  indistinguishable from rectangular profiles. The total linewidths at the
  half-intensity points are 0.86 A for the H and K lines, 1.28A for ~8542,
  and 0.90A for X8498. All profiles studied other than those of Caii and
  H~ are Gaussian in shape and consistent with a kinetic temperature of
  the order of 40-50 0000 and a macroscopic broadening velocity of about
  8 km7sec. The width of N8498 corresponds to a broadening velocity of 16
  km~sec. Self-absorption is shown to be negligible in this line. Hence,
  the Caii lines are apparently broadened by a macroscopic motion not
  shared by the neutral atoms. This additional m-~otion of the ions
  may arise from an interaction between the systematic spicule velocity
  and magnetic lines of force. Both the shapes and widths of the X8498
  profile can be explained by assuming that the Caii ions either spiral
  about, or follow sinusoidal perturbations in the lines of force, such
  as may be induced by hydromagnetic waves. At the densities occurring in
  spicules, the neutral atoms would not necessarily mimic such motions
  of the ions. The H, K, and N8542 lines of Caii show an additional
  broadening over that in X8498 that is reasonably consistent with
  self-absorption arising from the probable opacities in these lines.

---------------------------------------------------------
Title: Impulsive Phenomena of the Solar Atmosphere. I. Some Optical
    Events Associated with Flares Showing Explosive Phase.
Authors: Athay, R. Grant; Moreton, G. E.
1961ApJ...133..935A    Altcode:
  A new class of optical phenomena of the solar atmosphere associated
  with flares is described. These phenomena are characterized by higher
  velocities ( 1500 km/sec) and shorter time scales than has been
  indicated by previous observations. An explanation of some of the
  observed phenomena is offered in terms of corpuscular streams ejected
  from flares at the time of an "explosive phase" occurring during the
  rise to maximum brightness.

---------------------------------------------------------
Title: The Balmer: Paschen Ratio in the Chromosphere and the
    Equilibrium Populations of Hydrogen Angular-Momentum States.
Authors: House, Lewis L.; Athay, R. Grant; Zirin, Harold
1961ApJ...133..608H    Altcode:
  The work reported in this paper is a test of the hypothesis that the
  angular-momentum states of hydrogen are not populated according to
  their statistical weights. The anomalous ratio of the hydrogen Balmer to
  Paschen lines observed at the 1952 eclipse is investigated in relation
  to both observations and theoretical calculations. The Paschen decrement
  is used to test for a reduced population of states of higher angular
  momentum; such a depopulation of states was previously suggested as
  accounting for the anomalous ratio. The decrement does not confirm the
  suggestion. A statistical equilibrium analysis of the angular-momentum
  states is used to determine departures in the populations from their
  LTE values. The results indicate that departures are too small to
  give the observed Balmer: Paschen ratio. An calculation shows that it
  is reasonable to average together the substates of different angular
  momentum in hydrogen chromospheric calculations.

---------------------------------------------------------
Title: Sources of Solar Ultraviolet Radiation
Authors: Athay, R. Grant
1961JGR....66..385A    Altcode:
  Recent work related to the interpretation of the observed solar
  ultraviolet radiation is summarized from two standpoints: (1) the
  source of energy giving rise to the radiation, and (2) the physical
  conditions in the solar atmosphere where the radiation originates. Data
  on the ultraviolet spectrum are of great astrophysical importance
  for determining the energy balance and thermodynamic structure of the
  upper solar chromosphere and lower corona, but the lack of adequate
  atomic cross sections seriously limits the practical astrophysical
  usefulness of such data.

---------------------------------------------------------
Title: Physics of the solar chromosphere
Authors: Athay, R. Grant; Thomas, Richard N.
1961psc..book.....A    Altcode: 1961QB528.T45......
  No abstract at ADS

---------------------------------------------------------
Title: The Cosmic Ray Flares of July 1959 and November 1960 and Some
    Comments on Physical Properties and Characteristics of Flares
Authors: Athay, R. G.
1961spre.conf..837A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Departures from Thermodynamic Equilibrium in Chromospheric MgI,
    CaI, and OI.
Authors: House, Lewis L.; Athay, R. Grant
1961AJ.....66U.286H    Altcode:
  Line intensities from the chromospheric flash spectrum observed at
  the 1952 total eclipse clearly indicate marked departures from LTE in
  Mgi and Oi. The same is suggested for Cai, but not unambiguously. The
  following remarks relate only to Mgi. The stronger triplets X5184 and
  X3838 are influenced by self-absorption for heights below about 2500
  km. The forbidden line X4571 is observed, and is shown to be free from
  self-absorption. Its intensity leads directly to the opacities in the X5
  184 and X3838 triplets. At 500 km the radial opacities at line center
  are T5i94 3 and T3539 7, establishing that the centers of these lines
  in the Fraunhofer spectrum are chromospheric in origin. The singlet
  line X5528 is observed to fall off much more rapidly with height than
  the triplets even in the absence of self-absorption. The singlet to
  triplet ratios give unambiguous evidence of departures from LTE. At
  1000 km, the intensity of X4571 is enhanced relative to X5528 by
  factors of 20 to 200 for assumed values of Te of 60000 and 10 0000,
  respectively. Solutions to the statistical equilibrium equations yield
  populations of energy levels in good agreement with the empirical
  values for opacities consistent with those in the chromosphere. The
  departures from LTE in 3'S and 33P are shown to be the same and
  essentially independent of height. Typical computed values are b3'5~25
  at 60000 and 200 at 80000. The departures from LTE in the higher triplet
  levels are also relatively independent of height. Typical values are
  b435~1.4 at 60000 and 3.3 at 80000. For the upper level of N5528, 4'd,
  the departure from LTE depends strongly on height thereby accounting
  for the steep gradient in the X5528 emission.

---------------------------------------------------------
Title: The Equilibria and Ultraviolet Spectra of h, he i, and he II
    in the Solar Atmosphere.
Authors: Athay, R. Grant
1960ApJ...131..705A    Altcode:
  The ionization equilibrium equations and source functions for the
  ions H, He I, and He ii are considered under conditions appropriate
  to the solar chromosphere. The equations are formulated in terms
  of both occupation numbers and bk parameters, in order to clarify
  their relationship to earlier work for H and He I. In the case of
  the ionization equations for H, somewhat more approximate forms are
  adopted from those appearing in earlier works, in order to illustrate
  more clearly the dominant transitions in the equilibrium The three
  ions considered here exhibit fundamental differences as well as
  many similarities in both the ionization equations and the source
  functions. A consideration of the ultraviolet spectra indicates that
  the central intensities in the Lyman-p lines are influenced mainly
  by the "local" value of Te near the region r = 1, whereas the central
  intensities of the Lyman-a lines are influenced by the distribution of
  T throughout a large range in r and cannot be described solely in terms
  of the "local' value of Te near r = 1. For this reason, observations
  of the Lyman-p profiles and fluxes by means of rockets and satellites
  become a much more valuable supplement to Lyman-a observations than
  had previously been supposed.

---------------------------------------------------------
Title: The Excitation of he i in the Spectrum.
Authors: Athay, R. Grant; Johnson, Hollis R.
1960ApJ...131..413A    Altcode:
  The excitation and ionixation of He I in the solar atmosphere is
  computed for a range of values of n and T# and the radiation field in
  the resonance lines Good agreement is found between the observed and
  computed parameters for T and n 1011. The criterion for the X 10830
  and x 5876 lines to show as emission lines against the solar disk is
  found to be fle &gt; 1012 almost independently of Te.

---------------------------------------------------------
Title: Hβ, Hγ and K profiles in chromospheric spicules
Authors: Athay, R. G.
1960AnAp...23..250A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Anomalous broadening of the CaII K line in spicules.
Authors: Athay, R. Grant
1959AJ.....64..323A    Altcode:
  Caii K lzne ~ spicules. Observations of the profiles of the H~, Hp,
  H~, D3 and K lines for polar spicules suggest a spicule model in which
  the hydrogen, Hei and Caii atoms producing the observed lines are
  well-mixed, but in which the Caii ions have a non-thermal component
  of velocity not shared by hydrogen and Hei. An alternative model in
  which the hydrogen and Caii atoms producing the Balmer lines and the K
  line are physically separated by temperature stratification from the
  Hei atoms producing the D3 line satisfies some aspects of the data
  and allows hydrogen and Caii to share the same non-thermal velocity
  field. However, this alternative model is not compatible with the
  relative intensities of the Ho~ and D3 lines, nor with the absence
  of the strong lines of such ions as Srii and T~ii. The Hfl, H~ and D3
  profiles are gaussian, and for the majority of spicules the half-widths
  for a given line are the same to within the probable errors in the
  observations. The profiles of these lines indicate a kinetic temperature
  of 50,0000 and a non-thermal velocity component of about 7 km~sec. The
  Ha profile is apparently broadened to some extent by self-absorption,
  which is consistent with the above model. The K line, however, appears
  to be broadened by a non-thermal velocity component of about 30 km/sec,
  which corresponds to the mean spicule velocity. It is suggested that
  the broadening of the K line is due either to the spiralling of the
  Caii ions about magnetic lines of force oriented at some angle to
  the spicule motion, or to the forced oscillations of the Caii ions by
  perturbations in a magnetic field lying in the direction of the spicule
  motion. High Altitude Observatory University of Colorado Boulder, Colo.

---------------------------------------------------------
Title: The continuous spectrum of the low chromosphere
Authors: Athay, R. G.
1959Obs....79...12A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The Number of Spicules in the Middle Chromosphere.
Authors: Athay, R. G.
1959ApJ...129..164A    Altcode:
  Statistics are given for the number of Ha spicules observed at the
  solar limb for heights of 3000 km and above. The observed numbers are
  analyzed to obtain the spatial distribution of spicules. It is found
  that at a height of 3000 km there are about 9.3 x 10 spicules on the sun
  and that these spicules cover about 0.6 per cent of the solar surface.

---------------------------------------------------------
Title: The excitation of chromospheric HeI lines.
Authors: Johnson, Hollis R.; Athay, R. Grant
1959AJ.....64R.335J    Altcode:
  Relative intensities of singlet and triplet lines of Hei in the solar
  chromosphere allow a determination of bn exp E~n/Te~, where ~,` is
  the ionization energy of the level n and bn is a non- thermodynamic
  equilibrium factor. We have computed bn'5 for values of Te ranging
  from 10,0000 to 50,0000 for an idealized helium atom consisting of a
  continuum and IS level and the levels 25, 2P, and n = 3, 4 and 5 in the
  excited singlets and triplets. Computed and observed values of b exp
  E~n/Te~ for the triplets agree for all Te even though b varies with
  Te. The relative populations of the triplets are determined almost
  entirely by the radiative transitions, which, because of the low
  chromospheric opacity in the triplets, are independ~nt of the ambient
  Te. For the singlets, however, the occupation numbers of the excited
  levels depend critically upon R~, the net radiative transition rates to
  the ground state, which are functions of TO, the chromospheric opacity
  in the first resonance line. Thus, both Te and TO are parameters
  of the calculations, with TO, in turn, being a function of Te and
  ne. The electron density, ne, may be estimated from the absolute
  line intensities. In order to relate Re to TO, we use the source-
  function computations of Jefferies and Thomas (1959). Computed values
  of be exp E~n/Te~ and TO for the singlets agree satisfactorily with
  the empirical be exp E~.~/Te~ for Te 4o,ooo0~5o 0000 Uncertainties
  in atomic constants and Rn may permit a Te as low as 30,0000, but
  certainly not as low as 25,0000. At chromospheric densities, helium
  becomes predominantly Heii at Te 20,000, and predominantly Heiii at
  Te 55,ooo0. Chromospheric helium is, there- fore, predominantly Heii
  as suggested earlier by Athay and Menzel (1956). REFERENCES Athay,
  R. G. and Meuzel, D. H. 1956, Ap. J. 123, 285. Jefferies, J. T. and
  Thomas, R. N. 1959, Ap. J. 129, 401. National Bureau of Standards and
  High A ltitude Observatory Boulder, Colorado

---------------------------------------------------------
Title: A model of the chromosphere from radio and optical data
Authors: Athay, R. G.
1959IAUS....9...98A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The Solar Ultraviolet Spectrum of He II.
Authors: Athay, R. Grant
1958ApJ...128..447A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: On the Use of the Early Balmer Lines to Extend the Photospheric
    Model.
Authors: Athay, R. G.; Thomas, R. N.
1958ApJ...127...96A    Altcode:
  The early Balmer lines in the solar Fraunhofer spectrum provide
  information relative to the structure of the solar atmosphere. Our
  analysis of these lines in the disk spectrum indicates that the lines
  are not formed in local thermodynamic equilibrium, so that the source
  function is not given by B (T ). Our combined empirical and theoretical
  results lead us to conclude that the source function for the Balmer
  lines is determined to the first order by the radiation field in Ha and
  to the second order by the changes in electron temperature. The central
  intensities of the early Balmer lines show limb darkening out to cos
  o &gt; 0.1. Just beyond the limb, HP, HT, and H show limb brightening,
  whereas Ha shows constant brightness and the lines H10 and above show
  further limb darkening. The limb brightening in HP, H , and H may be
  attributed to decreasing opacity in the early Lyman lines without
  necessarily changing the electron temperature. The absence of limb
  brightening in Ha may be attributed to high opacity in the spicules,
  and the absence of limb brightening in the lines H10 and above may be
  attributed to lower opacity in these lines than in the earlier lines.

---------------------------------------------------------
Title: Hα and D<SUB>3</SUB> profiles in chromospheric spicules
Authors: Athay, R. G.
1958AnAp...21...98A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: On the relative intensities of chromospheric Balnier and
    Paschen lines.
Authors: Athay, R. G.; Zirin, Harold
1957AJ.....62..137A    Altcode:
  The flash spectrum of the solar chromosphere includes hydrogen Balmer
  and Paschen lines originating in common upper levels. We denote the
  intensity of the Balmer line arising from the transition n to 2 by B
  and the intensity of the Paschen line arising from the transition n
  to 3 by Pn. If all terms of the same n are populated in proportion to
  their statistical weights and if self-absorption is small, Bn/Pn 3.3
  for n &gt; 9. Self-absorption will tend to reduce the observed ratio of
  Bn$Pn. From spectrograms obtained at the 1952 eclipse, we find Bn/Pn 8
  for n &gt; 14. The discrepancy between observed and predicted ratios of
  Bn/Pn is too large to be accounted for by photometric errors. This may
  be illustrated by comparing continuum intensities in the ultraviolet
  and infrared and by comparing intensities of the H and K lines with
  the intensities of the infrared Caii triplet. The relative continuum
  intensities for the corona, derived from the same spectrograms,
  follow the photospheric curve. Furthermore, the Caii lines have very
  nearly the predicted relative intensities. If we discount photometric
  errors, then the observed ratio of Bn/Pn implies that some of the
  multiplets normally present in the Paschen lines are suppressed. In
  fact, it seems necessary to assume that only the s, and d terms are
  populated. In this case, the predicted ratio of Bn/Pn 6, which is in
  satisfactory agreement with the observations. The above assumption can
  be justified if it can be shown that most of the electrons in the upper
  term arrive via excitations from the IS, 25 and 2 terms. Quantitative
  estimates of rates of excitations from these low- lying terms and rates
  of three-body recombinations from the continuum using the Thompson
  collision cross-section indicate that three-body recombinations form
  the primary source of electrons for the upper levels. This would
  imply that all of the multiplets are populated and Bn7Pn should be
  3.3. Thus, the Thompson collision cross-section leads to a contradiction
  between predicted and observed ratios of Bn/Pn. Observations of the
  Paschen-Balmer ratio in prominences are now in progress at Climax. This
  work was carried out under the sponsorship of the Office of Naval
  Research and the Geophysics Research Directorate, Air Force Cambridge
  Research Center. High Altitude Observatory, Boulder, Colo.

---------------------------------------------------------
Title: Physical Conditions in the Solar Limb Prominence Observed at
    the 1952 Eclipse.
Authors: Athay, R. G.; Orrall, Frank Q.
1957ApJ...126..167A    Altcode:
  At the time of the 1952 eclipse a small, rather faint, prominence
  was located near the equator on the west solar limb. Redman and
  Zanstra (1952) have previously discussed the continuous spectrum of
  this prominence, and in this paper we discuss the line spectrum. By
  combining the line data with the continuum data, we arrive at the
  following conclusions: (1) the optical thickness of the central part
  of the prominence in the center of Ha is less than or near unity,
  and none of the observed hydrogen- and heliumline intensities are
  seriously affected by self-absorption; (2) the hydrogen energy levels
  and the helium triplet energy levels are overpopulated relative to the
  thermodynamic equilibrium populations at T4 (3) helium is predominantly
  singly ionized; (4) T is near 20000 and fle &gt;- 1011; and (5) the
  prominence is in a steady state, with its radiated energy balanced by
  an external energy supply.

---------------------------------------------------------
Title: The Numbers and Motions of Solar Spicules.
Authors: Athay, R. G.; Thomas, R. N.
1957ApJ...125..804A    Altcode:
  In this paper we interpret spicule motions in terms of two spicule
  models, one with constant velocity and one decelerating in the
  solar gravitational field. The available statistics slightly favor
  the gravitational model but do not indicate clearly which model is
  preferred. We estimate the total number of spicules on the sun by
  fitting the two spicule models to the observed distribution of spicules
  with height. This leads to total spicule numbers of 1.4 X 10 to 1.3
  X 1O for the two models.

---------------------------------------------------------
Title: The Chromosphere Near Active Regions.
Authors: Athay, R. G.; Thomas, R. N.
1957ApJ...125..788A    Altcode:
  Eclipse data show abnormal chromospheric and coronal emission above
  active sunspot regions. In this paper we analyze data for such regions
  on 1952,1936, and 1932 eclipse spectrograms and attempt to show how the
  chromospheric structure differs from normal chromospheric regions. If we
  assume that the chromosphere has two components of different temperature
  and density at a given height, we find that the principal difference
  between the active regions and the normal regions is a larger proportion
  of the hotter component in the active region. We also find that the
  temperatures in the two components are relatively unchanged over ihe
  active regions, which is consistent with the assumption of thermal
  stability for the chromospheric radiation field (Athay and Thomas 1956).

---------------------------------------------------------
Title: Some comments on photospheric models.
Authors: Athay, R. G.; Thomas, R. N.
1957AJ.....62....3A    Altcode:
  Models for the upper photospheric layers are usually derived by assuming
  that the excitation temperature, Tex, in the cores of the early Balmer
  lines is the same as the kinetic temperature, Te. From the observed
  center-to-limb variations in the line intensities, one then obtains a
  photo- spheric model with P0 decreasing monotonically with height. From
  eclipse data, however, we find that the central parts of these early
  Balmer lines are formed at heights of 2000 to 4000 km above the base
  of the chromosphere, and, in addition, that P0 is either constant or
  increasing with height. In this paper we attempt to integrate eclipse
  observations with disk observations in order to join the photospheric
  model to the low chromospheric model. The data indicate that Pox for
  Ha decreases across the disk, then remains constant for the first 4000
  km in the chromosphere before it decreases further. For H~, H~ and H~,
  however, the drop in Pox across the disk is followed by a sharp rise
  in Pox at the limb, which, in turn, is followed by a rather rapid
  decrease in Pox with height. We interpret this behavior in terms of
  the differences in the optical depths in the lines and in terms of
  the non-uniformities arising from spicule structure. In all cases P0
  obtained from other chromospheric data exceeds Pox in the early Balmer
  lines. In order to check the validity of identifying Pex with P0, we use
  the line profiles on the disk to obtain an empirical relation between
  Pex and the Doppler widths of the lines. If we ignore mass motions,
  the profiles show clearly that Te &gt; Pex If the observed effects
  are attributed to mass motions, random velocity fields of the order
  of 13 km/sec are required. Such velocity fields could, conceivably,
  arise from spicule motions, but it seems unlikely. Furthermore, we find
  that the individual curves of Tex versus height for the early Balmer
  lines do not join smoothly, again indicating that Te # Tex. Thus, we
  conclude that Tex in the early Balmer lines does not serve as a sound
  basis for deriving photospheric models. This work was supported by the
  Office of Naval Research and the Geophysics Research Directorate, Air
  Force Cambridge Research Center. High Altitude Observatory, Boulder,
  Cob., and Harvard College Observatory, Cambridge, Mass.

---------------------------------------------------------
Title: Variations in the Thermodynamic State of the Chromosphere
    over the Sunspot Cycle
Authors: Athay, R. G.; Menzel, D. H.; Orrall, F. Q.
1957SCoA....2...35A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Physical conditions in solar prominences.
Authors: Orrall, F. Q.; Athay, R. G.
1957AJ.....62R..28O    Altcode:
  Spectra of four solar limb-prominences, obtained with slitless
  spectrographs at eclipse, are analyzed to determine electron density,
  Ne, and kinetic temperature, Te For three of the prominences, the
  data consist of the continuous emission XX65oo-35oo. Data for the
  fourth prominence include the continuous emission X~4Ioo- 3600 and
  line emission in several hydrogen, helium and metal lines. We assume
  that Te and Ne are constant throughout each prominence. From the ratio
  of the Balmer free-bound em ission to the remaining components of the
  continuous emission at X3647, we limit P0 in the four prominences to
  the range 5200 to 2.5 X i~~. We reduce the upper limit on Te to 2 X
  i~~ for the three prominences for which we have extensive continuum
  data. At Te = 5500; Ne = 1010 and at Te = 2 &gt;c i&amp;, N0 = 2.7
  X 1011. Analysis of the hydrogen and helium line data for the fourth
  prominence yields the following conclusions: (i) the optical thickness
  of the central part of the prominence in the center of Ha is less
  than or near unity and none of the observed hydrogen and helium line
  intensities are seriously affected by self-absorption; (2) the hydrogen
  energy levels and the helium triplet energy levels are over-populated
  relative to the thermodynamic equilibrium populations at Te; (3) helium
  is predominantly singly ionized if the hydrogen: helium ratio is near
  10: I; (4) P0 is near the upper limit of 2.5 X i~~ and Ne &gt; 10"; (5)
  the prominence is in a steady-state with the energy radiated balanced
  by an external energy supply. This work was supported by the Geophysics
  Research Directorate, Air Force Cambridge Research Center. Sacramento
  Peak Observatory, N. M., and High Altitude Observatory, Boulder, Colo.

---------------------------------------------------------
Title: On the uniformity of the lower chromosphere
Authors: Thomas, Richard N.; Athay, R. G.
1957IAUS....4..279T    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Chromospheric profiles of the early Balmer lines.
Authors: Athay, R. G.; Smith, Elske V. P.
1957AJ.....62S...2A    Altcode:
  This constitutes a preliminary report on work being done at the
  Sacramento Peak Observatory in studying the chromospheric Balmer lines
  with the high-dispersion coronagraph-spectrograph. These spectra were
  obtained by occulting the solar disk and placing the slit tangential to
  the limb. The limb spectrum was obtained by means of a radial slit. This
  spectrum must be subtracted from the chromospheric spectrum to obtain
  the true emission profile. The corrected profiles can be reproduced
  satisfactorily by curves computed by introducing an appropriate optical
  depth. We find that the optical depths and the widths of the 107e
  points for the respective Balmer lines are as follows: Hn: To = 10 =
  1.82 TO = 6 = 1.11 TO =3 ($) =0.83 To = I = 0.70 These data are fairly
  consistent in view of the fact that they may not all refer to the same
  height in the chromosphere. Under the assumption that the lines are
  broadened only by the optical-depth effect and thermal Doppler broad-
  * Of papers presented a the Joint Meeting of the American Astronomical
  Society and the Astronomical Society of the Pacific, Berkeley, Calif.,
  August 24-28, 1956. ening we find a kinetic temperature of approximately
  30,0000. Variation of the profile with height in the chromosphere has
  thus far only been studied for Ha. Here it is clearly seen that the
  profile decreases in half-width and indicates diminishing optical
  depth with increasing height. Structure within the emission lines
  becomes more pronounced with increasing height in the chromosphere. The
  emission features are presumably spicules or groups of spicules. Some
  of the spicules exhibit marked radial velocities and some have large
  wings to the blue or the red. The profiles of different spicules at
  a given cross-section differ somewhat, but this does not necessarily
  imply that conditions differ in various spicules. Spicule profiles
  are, however, decidedly wider than prominence lines. This work was
  supported by contract with the Geophysics Research Directorate,
  Air Force Cambridge Research Center. High A ititude Observatory,
  Sacramento Peak Observatory, Harvard College Observatory.

---------------------------------------------------------
Title: LYMAN-α and the Structure of the Solar Chromosphere.
Authors: Athay, R. G.; Thomas, R. N.
1956ApJ...124..586A    Altcode:
  We investigate the range of chromospheric models compatible with present
  rocket observations of Lyman-a and conclude that it is considerable. We
  would require detailed observations of the line profile, with resolution
  better than one Doppler half-width, to be more specific on the actual
  model. We find a considerable difference between T and a radiation
  temperature defined by the line intensity, in conformity with earlier
  discussions of the non-equilibrium chromosphere by ourselves and by
  Giovanelli. A discussion of the relation of these results to the limb
  flare and SID correlations found by C. Warwick suggests a more extended
  investigation of the non-spherically symmetric model and its relation
  to the ch romospheric opacity in Lyman-a.

---------------------------------------------------------
Title: Some Characteristics of a Chromospheric Model.
Authors: Athay, R. G.; Thomas, R. N.
1956ApJ...123..309A    Altcode:
  Some general conditions that must be satisfied by a chromospheric model
  are discussed: (1) The available data on variations in chromospheric
  structure over the solar activity cycle indicate the highest emission
  gradients at sunspot maximum. (2) The evidence bearing on the choice
  of an energy or momentum perturbation as the chief characteristic of
  the low chromosphere is discussed, and a conclusion favoring the energy
  perturbation is reached. The maximum in the nonradiative energy input
  appears to lie near 500 km. (3) Some considerations on the effect of
  departures from spherical symmetry in the chromosphere are discussed
  in terms of hot versus cold spicules and of the thermodynamics of
  the resulting configurations. We conclude, both from an a priori
  thermodynamic standpoint and from existing data, that the spicules
  must be cold.

---------------------------------------------------------
Title: A Model of the Chromosphere from the Helium and Continuum
    Emissions.
Authors: Athay, R. G.; Menzel, D. H.
1956ApJ...123..285A    Altcode:
  Helium4ine emission observed in the flash spectrum at the Khartoum
  eclipse is interpreted in terms of a chromospheric model. The He I
  triplets have excitation temperatures of 6000 , and the singlets have
  excitation temperatures of 20000 . It is demonstrated that ultraviolet
  emission from the corona cannot account for the observed excitation of
  helium. A model of the chromosphere is derived from the helium data
  combined with the continuum data at X 3640 and X 4700. A two-column
  model, with Te and fle varying from column to column along a horizontal
  surface, is needed to satisfy the data. The model gives T.(h) and
  fle(h) in both types of columns. The cooler columns are identified
  with the spicules on the basis of the observed spicule structure on
  the spectrograms.

---------------------------------------------------------
Title: Temperature Gradients in the Chromosphere.
Authors: Athay, R. G.; Thomas, R. N.
1956ApJ...123..299A    Altcode:
  Our earlier determinations of electron temperature, Te, in the
  chromosphere by analysis of eclipse data are supplemented in this paper
  by considerations of the energy balance. We assume that Te may have only
  those values for which there is thermal stability. If an increase in
  Te, at a given height, results in an increase in the energy radiated,
  the model is stable. However, if an increase in Te causes a decrease
  in the energy radiated, there is no stable value of Te. Two regions
  of stability surmounted by regions of instability are recognized: (1)
  in the low chromosphere neutral hydrogen emission is stable and is the
  principal source of emission; (2) neutral hydrogen emission becomes
  unstable at a height where hydrogen becomes sufficiently ionized. At
  this height, Te increases abruptly until stable emission from He Ir
  balances the energy input; (3) He Ir emission also becomes unstable at
  sufficient ionization, and Te increases abruptly to a coronal value
  where either free-free emission or emission from multiply ionized
  metals predominates. Models of the chromosphere derived from 1952
  eclipse data show good agreement with the conclusions based on thermal
  stability considerations.

---------------------------------------------------------
Title: Temperature Gradients in the Chromosphere
Authors: Athay, R. G.; Thomas, R. N.
1955PASP...67..339A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The helium chromosphere.
Authors: Athay, R. G.
1955AJ.....60..150A    Altcode:
  The flash-spectrograms obtained by the High Altitude Observatory
  expedition to the 1952 eclipse in Khartoum contain several helium
  lines that are suitable for photometric reduction. Some of these
  lines have not been studied quantitatively at previous eclipses,
  and our spectrograms were taken with much greater height resolution
  than had been previously attempted. These features make a study of
  the helium data from the 1952 eclipse of special interest. The Hei
  data include the first four lines of the 23P - n3D series, the first
  three lines of the 2~P - n3S series, the first line of the 2'P -
  n'D series and the first three and fifth lines of the 2'? - n'S
  series. The Heii data are for X4686, 32D - 42F0. The data show maxima
  in the surface brightness of the chromosphere at the limb at heights
  of I 100 km for HeI emission and 1500 km for Heii emission. Both the
  hydrogen and helium data show that if the chromosphere is assumed
  to be uniform the radial optical depth at X5oo is 200 at the height
  where the maximum Hei emission occurs. These large optical depths
  exclude the possibility of excitation of chromospheric helium by
  ultraviolet coronal radiation if the chromosphere is uniform. Kinetic
  temperatures obtained from an analysis of the continuum data under the
  assumption of a uniform chromosphere are too low to produce the observed
  excitation of helium. Thus the assumption of a uniform chromosphere
  appears to be invalid for the helium data, and we assume a two-region
  model with all of the helium emission coming from one region. The
  triplet series of Hei have excitation temperatures of 50000, and the
  singlet series have excitation temperatures of 15,0000. If we assume
  approximate thermodynamic equilibrium for HeiT and the singlet series
  of Hei and use a relative abundance of hydrogen to helium of 7: 1,
  the observed line intensities for both Hei and Heii require kinetic
  temperatures of 19,000 in the regions above 1500 km that emit the
  helium radiation. If we vary b1 within the limits &lt; b1 &lt;
  i~~ the kinetic temperature in the helium region varies between
  14,5000 &lt; Te &lt; 26,0000. The maximum in the Heii emission at
  1500 km leads to Te 20,0000, in agreement with the values obtained
  by other methods. Continuum data show that the electron temperatures
  and densities below 4000 km in the regions that do not emit helium
  radiation are essentially unchanged from the results obtained on the
  assumption of a uniform chromosphere (Athay et al. 1955). Above 4000 km
  the nonuniform model leads to higher temperatures in these regions. The
  eclipse spectrograms show conclusively that above 5000 km the helium
  radiation is in the spicules. This work was supported by the Office of
  Naval Research and carried out in cooperation with the Naval Research
  Laboratory. Athay, R. G., Meozel, D. H. Pecker, J-C., and Thomas,
  R. N. 1955, Ap. J. Supplement 12, 505. H~gh Altitude Observatory,
  Boulder, Colo.

---------------------------------------------------------
Title: The Thermodynamic State of the Outer Solar
    ATMOSPHERE.IV.SELF-ABSORPTION and the Population of the Second
    Quantum Level.
Authors: Athay, R. G.; Thomas, R. N.
1955ApJS....1..491A    Altcode:
  The quantitative dependence of the observed logarithmic emission
  gradient, fl , of the Balmer lines upon quantum number provides
  a direct substantiation of the influence of self-absorption on the
  higher lines (n greater than about 10). An analysis assuming that the
  ( , n) dependence arises only from seifabsorption permits a direct
  determination of the population of the second quantum level, n ,
  as a function of height, leading to a scale height of 2000 kin for
  n2 by contrast with 500 km for the highest quantum levels. The scale
  height for the non-Boltzmann term, b2, is thus 600 kin. The derived
  self- absorption is so large that at H1 1 only some 7 per cent of
  the (slitless spectrograph) emission at h = 1000 kin escapes from
  the chromosphere. The analysis is seif-consistent, provided that T,
  is sufficiently low that b10 is less than about 2; a discrepancy
  arises because the line emission is relatively too great for that
  of the continuum, leading to excessive empirical b . The question
  of a nonuniform chromosphere arises and is deferred, together with a
  general model, pending the analysis of the continuum.

---------------------------------------------------------
Title: The Thermodynamic State of the Outer Solar ATMOSPHERE.V.A.MODEL
    of the Chromosphere from the Continuum Emission.
Authors: Athay, R. G.; Menzel, D. H.; Pecker, J. -C.; Thomas, R. N.
1955ApJS....1..505A    Altcode:
  Four semi-independent analyses of 1952 eclipse data contribute to a
  determination of n and T in the solar chromosphere in the height range
  from -120 km to 6000 km: (1) The intensity of the continuous emission
  at X 4700 indicates that T, increases with height from about 4800 at -
  65 km. (2) The emission, per cubic centimeter, in the Balmer continuum
  attains a maximum near 500 km, which indicates that here the free
  electrons begin to come mainly from H rather than from metals, and thus
  places the limits: 5000 &lt; T &lt; 7000 , 4 X 1011 &lt;n &lt; S X 1011
  at this height. (3) The intensities of the continuum at X 4700 and X
  3640 require values of T as follows: 5000 at 500 km, 6100 at 1000 km,
  and 6700 at 3000 kin. In the interval 1()()( 3000 kin the ionization
  of H increases from about 3 to about 80 per cent. (4) Above 3000 kin
  no data on the Balmer free-bound continuum exist, and an extension
  of the results of 3 to greater heights requires the use of the height
  gradient of the Balmer lines to replace that of the continuum. Such a
  technique fixes T only within certain limits, which, at 6000 km, are:
  2 X 10 &lt; T &lt; 1.2 X 10 . The chief uncertainty of the analysis
  lies in the use of the assumption of a continuous distribution of
  material in the atmosphere. The results of the analysis suggest the
  validity of such assumption below about 2500 kin, and its breakdown
  above about 3000 km. An estimate of optical depth in the continuum,
  from the present analysis, at a height of 500 km produces a value
  agreeing well with an estimate based on the analysis of the lines.

---------------------------------------------------------
Title: CN Bands in the Chromosphere.
Authors: Pecker, J. -C.; Athay, R. G.
1955ApJ...121..391P    Altcode:
  CN bands are observed in emission in the chromosphere between the
  photospheric limb and a height of 750 km. Spectrograms obtained by
  the High Altitude Observatory at the Khartoum eclipse in 1952 showed a
  scale height of 210 km for the intensity of the emission in the 2 2 (0,
  0) band at X 3883. The emission spectrum at 100 km gives a rotation
  temperature of 4500 , and the photospheric absorption spectrum in
  the Utrecht Atlas gives a rotation temperature of 4000 . At eclipse
  heights other than 100 km, the data were used to determine the
  temperature gradient. The rotation temperature was found to increase
  with height. Photospheric and chromospheric models were used to predict
  the absolute intensity of the CN emission in this band. The predicted
  intensity was less than the observed intensity by a tactor of 20. The
  discrepancy was accounted for by uncertainties in the absorption
  coefficient, which was obtained from a study of the absorption profile
  in the Utrecht Atlas.

---------------------------------------------------------
Title: Coronal Line Intensities at the Khartoum Eclipse.
Authors: Athay, R. G.; Roberts, W. O.
1955ApJ...121..231A    Altcode:
  Coronal line and continuum intensities were measured at several
  position angles on the limb and as a function of height above the limb
  on the slitless spectrograms obtained at Khartoum by the High Altitude
  Observatory. The lines XX 5303, 6374, and 7892 and the continuum were
  measured at fifteen points around the limb. The relative line and
  continuum intensities around the limb showed large variations. In one
  active region where the emission in some lines was intense, the yellow
  coronal line X 5694 was observed. In this same region the lines X 6702
  and X 7060 were intense enough to measure, and it was found that lines
  of high ionization potential were at maxima in intensities, whereas
  lines of low ionization potential were at minima. The yellow line
  was at maximum in this region, confirming that it is a high4oniza-
  tion-potentia] line. The correlation between line and continuum
  intensities was found to increase markedly as the ionization
  potential increased for the three lines studied. The correlation
  between line intensities was found to increase as the difference in
  ionization potential decreased. Intensities of X 5303, X 7892, and the
  continuum were measured as a function of height above the limb in four
  regions. Two of these regions were active centers, one of which showed
  the yellow line, and two were more nearly average regions. The change
  of X 7892 intensities with height in the latter two regions showed
  that the maximum intensity occurred below 10,000 km. Changes in the
  relative intensities of the two lines with height showed that in the
  yellow-line region the temperature decreased with height, but in the
  other regions the temperature increased with height. A comparison of
  the changes in line intensities to the changes in continuum intensities
  showed that the average temperature in the active regions was above the
  value at which the line X 5303 had a maximum intensity, but in the two
  more normal regions the temperature was between the limits where the
  lines X 5303 and X 7892 have maxima. The active regions were found to
  be regions of high density.

---------------------------------------------------------
Title: A model of the chromosphere from 1952 eclipse data.
Authors: Athay, R. G.; Pecker, J. C.; Thomas, R. N.; Menzel, D. H.
1954AJ.....59..314A    Altcode:
  An analysis of the Balmer free-bound emission at X3640 and the continuum
  intensities at ~4700 was carried out using data from the slitless
  spectrograms obtained by the High Altitude Observatory at Khartoum,
  Sudan. The data gave intensities at X3640 and ~4700 at intervals
  of approximately 100 km between 0 and 2400 km above the limb and
  intensities at X4700 at many additional heights between 2400 and 48,000
  km. The Balmer line data, which extended from 100 to 6400 km, was used
  to supplement the free- bound data for heights between 2400 and 6000
  km. Values of electron density, Ne, and kinetic temperature, Te, were
  determined at heights between 0 and 6000 km. The analysis was based on
  the assumption of a homogeneous chromosphere, with Ne and Te depending
  upon height only. The continuum at X4700 was assumed to come from H-
  emission and electron scattering of photospheric light. The results of
  the analysis of the continuum data gave a chromospheric model that could
  be divided into three distinct regions with the following properties:
  Region I (o to 500 km). In this region Te increases from 50000K at the
  photospheric limb (tangential optical depth I, radial optical depth
  0.005) to 600&amp;K at 500 km. Hydrogen begins to ionize near the top
  of this region with NpHNe. This result is consistent with a marked
  increase with height of the quantity NeNpTJ in the region near 500 km,
  which was inferred from the Balmer free-bound and line emission. Thus
  it appears that the "boundary temperature," T,nin~42000K, occurs below
  a radial optical depth of 0.005. Region 2 (1000 to 3500 km). The
  ionization of hydrogen increases from 5 per cent at the base to 99
  per cent at the top of this region. Te increases slowly from 60000K
  to &gt; 70000 K. The low gradient of Te suggests that the external
  energy supply suffices only for the ionization. Region 3 (~3500 km
  up). Further ionization of hydrogen is negligible and a large rise in Te
  occurs. The free-bound emission is too weak to measure in this region
  and an accurate evaluation of Te is difficult. An extrapolation of the
  free- bound intensities to 6000 km based on the ob- served intensities
  of the Balmer lines between 2400 and 6400 km gives Te 7 X io40K. The
  analysis allowed an accurate determination of Te in the region ~1500
  km, and the probable errors in the data plus the errors introduced in
  the analytical procedures were not likely to cause errors of more than
  ~3000 in Te. However, in higher regions the values of Te were quite
  sensitive to the analytical procedures at~d errors of a factor 2 in Te
  are possible. The eclipse spectrograms at heights above 5500 km show Ha,
  and all other strong chromospheric lines that persist to these heights,
  as irregular beaded structures. This irregular structure is presumably
  due to spicule activity at these heights and requires the consideration
  of a non-uniform chromospheric model, at least in the upper levels of
  the chromosphere. A study of the Fe xi line at X7892 on the eclipse
  spectrograms showed that there was strong emission in this line at
  heights well below 10,000 km and suggested that the emission started
  in the regions where the chromospheric lines break up into a spicule
  structure. The work reported in this paper was supported by the Office
  of Naval Research and carried out in close cooperation with the Naval
  Research Laboratory. High A ititude Observatory, Boulder, Colo. and
  Harvard College Observatory, Cambridge, Mass.

---------------------------------------------------------
Title: Emission in Hydrogen Balmer Lines and Continuum in Flash
    Spectrum of 1952 Total Solar Eclipse at Khartoum, Sudan.
Authors: Athay, R. Grant; Billings, Donald E.; Evans, John W.; Roberts,
   Walter O.
1954ApJ...120...94A    Altcode:
  Analysis of the spectrograms of the chromospheric flash obtained
  at the 1952 solar eclipse in Khartoum, Sudan, presented serious
  photometric problems. Standardixing exposures made at Khartoum were
  not successful because of a posteclipse failure of the film-advance
  mechanism. Characteristic curves obtained from standard lamp exposures
  made in Boulder after completion of the expedition could not be
  trusted to represent the photometric properties of the eclipse films
  and were principally useful as a first approximation to the curves
  representing the eclipse spectrograms. Methods were developed that,
  in spite of these problems, allowed entirely reliable determinations of
  the characteristic curves of the eclipse films. A thorough, independent
  check on the consistency and accuracy of the final curves was possible,
  and its result was entirely satisfactory. Change with wave length of
  fiim sensitivity, atmospheric absorption, and optical constants of
  the spectrographs were evaluated and included in the photometry. The
  integrated intensities of the hydrogen Baimer lines from H8 to H31
  and at four wave lengths in the Balmer continuum were measured at two
  points on the east limb on seventeen ultraviolet spectrograms; and
  the intensities of Hp, H , and H were measured at one of these points
  on nineteen visible spectrograms. The observations extend from 100 to
  6300 km, with a height resolution of 108 1cm throughout most of the
  low chromosphere. Preliminary interpretation of the line intensities
  revealed that the effects of self-absorption were pronounced and
  also demonstrated that there were large departures from thermodynamic
  equilibrium, in the sense that the b ' s were greater than 1 at 1000 km
  and increased with height. A preliminary mterpretation of the continuum
  data gave a chromospheric model characterized by a large increase
  of temperature with height and a relatively low electron-density
  gradient. A more detailed analysis of the data is in progress.

---------------------------------------------------------
Title: The active region on the west solar limb during the eclipse
    of 25 February 1952.
Authors: Athay, R. G.; Evans, J. W.; Roberts, W. O.
1954AJ.....59..182A    Altcode:
  At the Khartoum eclipse there was an active region at io0S latitude
  on the west limb. This region was first observed as a small sunspot
  group and plage area near the east limb on 12 February. One flare was
  reported in this region on 13 February, one on i6 February, two on 24
  February and two on 25 February."2 The west limb spectrograms of the
  chromospheric flash obtained by the High Altitude Observatory showed
  a small region of enhanced emission and immediately adjacent to it
  a small region of greatly reduced emission. Moon profile pictures
  taken at Khartoum showed that the observed effects could not be
  attributed to irregularities in the moon's profile. A few degrees
  away from these regions there was a bright prominence that appeared
  to be of a surge type. The region of reduced emission showed mainly
  in the chromospheric lines. There was also an apparent decrease in
  the coronal line intensities in the lowest levels of the corona, but
  there was no marked decrease in the continuum intensity. The decrease
  in the line intensities apparently resulted from either a cloud of
  absorbing matter or an actual decrease in chromospheric emission. The
  region of enhanced emission showed a maximum in the continuum and all
  chromospheric and coronal line intensities. The greatest increase in
  chromospheric lines was in He+, X4686. The yellow coronal line, X5694,
  showed in this region on our spectrograms. It did not show at any
  other positions, and to our knowledge has not been observed at previous
  eclipses. Lyot and Doilfus have also reported this coronal line and four
  new coronal lines from observations at Khartoum.3 All of these lines
  were found in this region of enhanced emission. The intensities of all
  of the chromospheric lines decreased much more slowly with height in
  this region than in an east limb region previously analyzed,4 which
  seemed to represent the undisturbed chromosphere. It was suggested
  that the region of enhanced emission was caused by a limb flare. A
  preliminary interpretation of the data from this region showed that
  both the electron density and kinetic temperature were greater than in
  the east limb region, and that the temperature increased less rapidly
  with height. A more detailed analysis of this region will be published
  elsewhere. This work was supported by the Office of Naval Research
  and carried out in cooperation with the Naval Research Laboratory.

---------------------------------------------------------
Title: Astronomy and Mathematics. (Book Reviews: Dialogue on
    the Great World Systems; Dialogue concerning the Two Chief World
    Systems--Ptolemaic &amp; Copernican)
Authors: Kuhn, Thomas S.; Nelson, E. C.; Kron, Gerald E.; Athay,
   R. Grant; Roberts, Walter Orr; Miller, Frederic H.
1954Sci...119..546K    Altcode: 1954Sci...119..546G
  No abstract at ADS

---------------------------------------------------------
Title: Emission in the Hydrogen Balmer Lines and Continuum in the
    Flash Spectrum of the 1952 Total Solar Eclipse at Khartoum, Sudan.
Authors: Athay, Russell G.
1954PhDT.........2A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: The active region on the west solar limb during the eclipse
    of 1952 25 February
Authors: Athay, R. G.; Evans, J. W.; Roberts, W. O.
1953Obs....73..244A    Altcode:
  No abstract at ADS

---------------------------------------------------------
Title: Preliminary intensities of Balmer lines from the flash spectrum
    of the 1952 solar eclipse.
Authors: Athay, R. G.; Billings, D. E.; Evans, J. W.; Roberts, W. O.
1953AJ.....58R..33A    Altcode:
  Spectrographic observations of the flash spectrum at the February 25,
  1952 solar eclipse at Khartoum, Sudan, were made by the High Altitude
  Observatory of Harvard University and University of Colorado. A primary
  purpose of the expedition was to obtain information about the hydrogen
  Balmer and Paschen series. This information, in turn, will be used to
  determine the electron temperature and electron density as a function
  of height in the chromosphere. The observations employed three slitless
  spectrographs covering the spectral range X88oo to X340o. *Of papers
  presented at the Eighty-eighth Meeting of the American Astronomical
  Society, Amherst, Mass., Dec. 28-31, 1952. We obtained 29 pairs of
  visible and 17 pairs of ultraviolet spectrograms from X6400 to X3400,
  which are of satisfactory quality. The 16 infrared spectrograms X88oo
  to X6100 are underexposed. Imaged on the film during each exposure
  were two simultaneous spectra, the pair having an intensity ratio
  approximately 30:1. Each exposure also contained a data panel. The data
  panel included clocks for determining the beginning and end of each
  exposure and a photographic step-wedge for checking the characteristic
  curve. Standard exposures from a tungsten ribbon-filament lamp taken
  on the same roll of film as the eclipse spectrograms, but separately
  processed, provide data for a first approximation to the characteristic
  curve at any desired wave length. Corrections carried out by comparing
  densities in the corresponding light and dark spectral images will then
  give us reliable characteristic curves. The distribution of densities
  in the coronal continuum gives further information for improving
  the accuracy of the characteristic curve. More direct determination
  of the characteristic curves is not possible because a part of the
  standardizing program failed at the time of the eclipse. Using the
  approximate characteristic curve obtained from the standard exposures,
  we made preliminary measures of the intensities of the Balmer lines
  near the series limit on 12 spectrograms at second contact. For this
  we worked from positive prints of the original spectra. The heights at
  which measurements were made extend from 700 km to 1930 km above the
  base of the chromosphere, with observations every 108 km. We found
  that the intensity of H31 is measurable to a height of 2150 km and
  the intensity of H23 is measurable to 2700 km. In some spectrograms
  a tentative identification shows H34, H35, and H36 to be resolved. We
  are now initiating a more complete and more accurate reduction of the
  data, working from the original films. The eclipse program of the High
  Altitude Observatory is supported by the Naval Research Laboratory,
  Office of Naval Research, and has been conducted in close collaboration
  with the Laboratory. Three of the four authors are connected with the
  High Altitude Observatory, J. W. Evans with the Upper Air Research
  Observatory. High A ititude Observatory, Boulder, Cob., and Upper Air
  Research Observatory, Sacramento Peak, Clouderoft, N. Mex.

---------------------------------------------------------
Title: Analysis of the Balmer continuum from the 1952 eclipse.
Authors: Dimock, D. L.; Billings, D. E.; Athay, R. G.; Thomas, R. N.
1953AJ.....58Q.213D    Altcode:
  The continuum intensities mentioned in the preceding paper were
  analyzed to determine the electron temperature and density in
  the chromosphere.' Two equations relating these two quantities were
  obtained by taking the ratio of the intensity at X3647 to the intensity
  at X3700 and by taking the difference between these two intensities
  after the intensity at X3700 was corrected empirically to X3647. The
  quantity obtained by subtracting the two intensities represented the
  free-bound emission in the Balmer continuum. The quantity represented
  by the ratio of the two intensities included the contributions from
  electron scattering, free-free emission, and free-bound emission for
  the Balmer, Paschen, and higher hydrogen series. The solutions of the
  equations involved two additional parameters. There was a non-trivial
  contribution to the continuum intensities from the portion of the
  corona extending beyond the moqn's limb on the third contact side of
  the sun. The integration over the atmosphere involved an additional
  unknown represented by the ratio of the free-bound emission gradient
  to the electron density gradient. Both of these quantities were
  carried as parameters and solutions carried out for a range of values
  representing the possible extremes. The values of the latter parameter
  placed a condition upon the solutions, and only the solutions which
  were compatible with these conditions were accepted. It was found
  that the extreme ranges of the acceptable solutions gave quite similar
  results. The results show conclusively that the temperature increases
  rapidly with height from about 90000K at 530 km to about 25,0000K at
  2400 km. The electron densities are about 6 X 1011 at 530 km and 2 X
  IO'~ at 2400 km. The solutions will be extended to give more specific
  results and to extend the range of heights to both lower and higher
  values. i. A. J. 58, 210, 1953. Johns Hopkins University, Baltimore,
  Md., High Altitude Observatory, Boulder, Cob., and Harvard College
  Observatory, Cambridge, Mass.