R. Loeser scite author profile

We present semiempirical model atmospheres for the darkest parts of large sunspot umbrae, regions we call umbral cores. Our approach is based on general-purpose computational procedures that are applicable to different types of stellar atmospheres. We show that recent umbral intensity measurements of the spectral energy distribution may be accounted for by an umbral core atmospheric model that varies with time during the solar cycle; the observed center-limb variation can be accounted for by the properties of the model. Three umbral core models are presented, corresponding to the early, middle, and late phases of the solar cycle. These three models also may be regarded as having the properties of dark, average, and bright umbral cores respectively. The effects of atomic, opacity, and abundance data uncertainties on the model calculations are briefly discussed. We also give for comparison a new reference model for the average quiet solar photosphere.

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Models of the Solar Chromosphere and Transition Region from SUMER and HRTS Observations: Formation of the Extreme‐Ultraviolet Spectrum of Hydrogen, Carbon, and Oxygen

Avrett

Loeser

2008

ASTROPHYS J SUPPL S

367

234

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We present the results of optically thick non-LTE radiative transfer calculations of lines and continua of H, C iYiv, and O iYvi and other elements using a new one-dimensional, time-independent model corresponding to the average quiet-Sun chromosphere and transition region. The model is based principally on the Curdt et al. SUMER atlas of the extreme ultraviolet spectrum. Our model of the chromosphere is a semiempirical one, with the temperature distribution adjusted to obtain optimum agreement between calculated and observed continuum intensities, line intensities, and line profiles. Our model of the transition region is determined theoretically from a balance between (a) radiative losses and (b) the downward energy flow from the corona due to thermal conduction and particle diffusion, and using boundary conditions at the base of the transition region established at the top of the chromosphere from the semiempirical model. The quiet-Sun model presented here should be considered as a replacement of the earlier model C of Vernazza et al., since our new model is based on an energy-balance transition region, a better underlying photospheric model, a more extensive set of chromospheric observations, and improved calculations. The photospheric structure of the model given here is the same as in Table 3 of Fontenla, Avrett, Thuiller, & Harder. We show comparisons between calculated and observed continua, and between the calculated and observed profiles of all significant lines of H, C iYiv, and O iYvi in the wavelength range 67Y173 nm. While some of the calculated lines are not in emission as observed, we find reasonable general agreement, given the uncertainties in atomic rates and cross sections, and we document the sources of the rates and cross sections used in the calculation. We anticipate that future improvements in the atomic data will give improved agreement with the observations.

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Structure of the solar chromosphere. II - The underlying photosphere and temperature-minimum region

Vernazza¹,

Avrett²,

Loeser³

1976

ApJS

333

140

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R. Loeser

Structure of the solar chromosphere. III - Models of the EUV brightness components of the quiet-sun

Energy balance in the solar transition region. III - Helium emission in hydrostatic, constant-abundance models with diffusion

A new sunspot umbral model and its variation with the solar cycle

Models of the Solar Chromosphere and Transition Region from SUMER and HRTS Observations: Formation of the Extreme‐Ultraviolet Spectrum of Hydrogen, Carbon, and Oxygen

Structure of the solar chromosphere. II - The underlying photosphere and temperature-minimum region

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