Line Formation in U Gem and T Leo

We present 3-D LTE radiative transfer calculations [1] for H, He and Ca in accretion disks (AD) of dwarf novae in quiescence. The model disk is assumed to be in hydrostatic equilibrium vertically, and to rotate with Keplerian velocities. Calculated emission lines are fitted to phase-averaged, continuum-subtracted spectra of U Gem (Fig. 1) and T Leo (Fig. 2). Up to four parameters of the AD have been fitted: distance D, baryonic number density N, isotropic turbulence Vtu and disk temperature T; the latter two are assumed to be constant throughout the disk. Geometrical parameters are from [2] and [3].

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Emission Lines of Dwarf Novae Accretion Disks

International Astronomical Union Colloquium ◽

10.1017/s0252921100043104 ◽

1997 ◽

Vol 163 ◽

pp. 498-501 ◽

Cited By ~ 1

Author(s):

W. Hummel ◽

K. Horne ◽

T. Marsh ◽

J. H. Wood

Keyword(s):

Accretion Disk ◽

Accretion Disks ◽

Rotating Disk ◽

Emission Lines ◽

Density Structure ◽

Dwarf Novae ◽

Dwarf Nova

AbstractWe derive the temperature and density structure of the accretion disk of the dwarf nova U Gem in quiescence from 3D radiative line and continuum transport calculations of a differentially rotating disk.

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Spectral evolution of accretion disks of dwarf novae. II - Radiative transfer models

The Astrophysical Journal ◽

10.1086/167114 ◽

1989 ◽

Vol 337 ◽

pp. 432 ◽

Cited By ~ 7

Author(s):

F. H. Cheng ◽

D. N. C. Lin

Keyword(s):

Radiative Transfer ◽

Accretion Disks ◽

Dwarf Novae ◽

Spectral Evolution ◽

Radiative Transfer Models ◽

Transfer Models

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Measuring the supermassive black hole parameters with space missions

Proceedings of the International Astronomical Union ◽

10.1017/s1743921307006023 ◽

2006 ◽

Vol 2 (S238) ◽

pp. 475-476

Author(s):

Alexander F. Zakharov

Keyword(s):

Black Hole ◽

Spectral Line ◽

Accretion Disks ◽

Seyfert Galaxies ◽

Emission Lines ◽

X Ray ◽

Line Shapes ◽

Supermassive Black Hole ◽

Broad Emission ◽

Different Types

AbstractRecent X-ray observations of microquasars and Seyfert galaxies reveal broad emission lines in their spectra, which can arise in the innermost parts of accretion disks. Recently Müller & Camenzind (2004) classified different types of spectral line shapes and described their origin. Zakharov (2006b) clarified their conclusions about an origin of doubled peaked and double horned line shapes in the framework of a radiating annulus model and discussed s possibility to evaluate black hole parameters analyzing spectral line shapes.

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Effect of OH emission on the temperature and wind measurements derived from limb-viewing observations of the 1.27 µm O<sub>2</sub> dayglow

Atmospheric Measurement Techniques ◽

10.5194/amt-13-1817-2020 ◽

2020 ◽

Vol 13 (4) ◽

pp. 1817-1824

Author(s):

Kuijun Wu ◽

Weiwei He ◽

Yutao Feng ◽

Yuanhui Xiong ◽

Faquan Li

Keyword(s):

Remote Sensing ◽

Radiative Transfer ◽

Spectral Region ◽

Emission Lines ◽

Radiative Transfer Model ◽

Transfer Model ◽

Altitude Range ◽

Band Emission ◽

Near Space ◽

Wind Measurements

Abstract. The O2(a1Δg) emission near 1.27 µm is well-suited for remote sensing of global wind and temperature in near-space by limb-viewing observations to its bright signal and extended altitude coverage. However, vibrational–rotational emission lines of the OH dayglow produced by the hydrogen–ozone reaction (H+O3→OH•+O2) overlap the infrared atmospheric band emission (a1Δg→X3Σg) of O2. The main goal of this paper is to discuss the effect of OH emission on the wind and temperature measurements derived from the 1.27 µm O2 dayglow limb-viewing observations. The O2 dayglow and OH dayglow spectrum over the spectral region and altitude range of interest is calculated by using the line-by-line radiative transfer model and the most recent photochemical model. The method of four-point sampling of the interferogram and sample results of measurement simulations are provided for both O2 dayglow and OH dayglow. It is apparent from the simulations that the presence of OH dayglow as an interfering species decreases the wind and temperature accuracy at all altitudes, but this effect can be reduced considerably by improving OH dayglow knowledge.

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Absorption and Production of Soft X-Rays in the Galaxy

Symposium - International Astronomical Union ◽

10.1017/s0074180900100427 ◽

1973 ◽

Vol 55 ◽

pp. 235-249

Author(s):

S. Hayakawa

Keyword(s):

Emission Lines ◽

Interstellar Matter ◽

X Rays ◽

Diffuse Component ◽

Number Density ◽

High Number Density ◽

Hard Component ◽

X Ray ◽

Cygnus Loop ◽

The Galaxy

The column densities of interstellar hydrogen to X-ray sources derived from their spectra are compared with those obtained from 21 cm radio observations. Referring to several observed results on Cyg X-2, Cygnus Loop etc., the interpretation of the low energy cut-off of the spectrum in terms of the interstellar absorption is subject to ambiguities due to a modification of the emission spectrum by Compton scattering in the sources and the contribution of emission lines.The result of soft X-ray sky surveys indicates that the diffuse component of soft X-rays consists of the extragalactic and the galactic components. The former has a hard component with a power law spectrum and a soft component which may be represented by an exponential spectrum. The galactic component is so soft that its spectrum may also be explained by thermal bremsstrahlung of temperature of about 0.1 keV. Its generation rate may account for the heating and ionization of interstellar matter. It is suggested that galactic diffuse soft X-rays are produced by active stars of a rather high number density.

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Non-local thermodynamic equilibrium line formation for Si i–ii–iii in A–B stars and the origin of Si ii emission lines in ι Her

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/staa653 ◽

2020 ◽

Vol 493 (4) ◽

pp. 6095-6108 ◽

Cited By ~ 4

Author(s):

Lyudmila Mashonkina

Keyword(s):

Thermodynamic Equilibrium ◽

Local Thermodynamic Equilibrium ◽

Emission Lines ◽

Atomic Data ◽

Line Formation ◽

Atmospheric Parameters ◽

B Stars ◽

Non Local ◽

Effective Temperatures ◽

Model Atom

ABSTRACT A comprehensive model atom was developed for Si i–ii–iii using the most up-to-date atomic data available so far. Based on non-local thermodynamic equilibrium (NLTE) line formation for Si i, Si ii and Si iii and high-resolution observed spectra, we determined the NLTE abundances for a sample of nine unevolved A9–B3 type stars with well-determined atmospheric parameters. For each star, NLTE reduces the line-to-line scatter for Si ii substantially compared with the LTE case and leads to consistent mean abundances from lines of different ionization stages. In the hottest star of our sample, ι Her, Si ii is subject to overionization that drives emission in the lines arising from the high-excitation doublet levels. Our NLTE calculations reproduced 10 emission lines of Si ii observed in ι Her. The same overionization effect leads to greatly weakened Si ii lines, which are observed in absorption in ι Her. Large positive NLTE abundance corrections (up to 0.98 dex for 5055 Å) were useful for achieving consistent mean abundances from lines of the two ionization stages, Si ii and Si iii. It was found that NLTE effects are overestimated for the Si ii 6347, 6371 Å doublet in ι Her, while the new model atom works well for cooler stars. At this stage, we failed to understand this problem. We computed a grid of the NLTE abundance corrections for lines of Si i, Si ii and Si iii in model atmospheres with effective temperatures and surface gravities characteristic of unevolved A–B type stars.

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