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A discussion of the theory for interpreting ultraviolet stellar spectra

Published online by Cambridge University Press:  14 August 2015

Anne B. Underhill
Anne B. Underhill*
Affiliation:
The Astronomical Institute, Utrecht, The Netherlands

Abstract

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The observed spectral distribution from a star will, in principle, give information about the parts of the atmosphere from which the radiation comes. Most detailed theoretical studies assume that the atmosphere may be represented by plane parallel layers, but in the case of very strong absorption lines and weak continuous absorption, a case which is encountered in the ultraviolet spectral region of B stars, the radiation received from the centers of the lines may come from an entirely different part of the star than does that from the far wings of the lines or from the continuous spectrum. In the case of strong lines, because stars are three dimensional objects and because a field of motion may occur in the outermost part of the atmosphere, the appearance of the ultraviolet line spectrum may be poorly predicted using the hypothesis of stationary plane parallel layers.

Some numerical examples are presented demonstrating that with the UV resonance lines the opacity in the centre of a line may exceed the continuous opacity by a factor 106–108. A summary is given of the chief factors which should be taken into account in any theory of line formation when the hypothesis of LTE is not valid. A detailed description of the interactions between radiation and matter which can occur is necessary. Some examples of the distribution in energy of the lower energy levels of the ion are presented for typical ions of interest. This distribution and the presence of metastable levels are important factors in determining the significance of non-LTE physics. The paper concludes with remarks indicating that ultraviolet spectra of stars should be obtained with a spectral purity of at east 0.1 Å if progress is to be made in understanding the physical state of stars.

Type
Part II: Stellar Line Spectra
Information
Symposium - International Astronomical Union , Volume 36: Ultraviolet Stellar Spectra and Related Ground-Based Observations , 1970 , pp. 215 - 225
Copyright
Copyright © Reidel 1970 

References

Avrett, E. H. and Hummer, D. G.: 1965, Monthly Notices Roy. Astron. Soc. 130, 295.CrossRefGoogle Scholar
Beals, C. S.: 1929, Monthly Notices Roy. Astron. Soc. 90, 202.Google Scholar
Beals, C. S.: 1934, Publ. Dom. Astrophys. Obs. Victoria 6, 93.Google Scholar
Elst, E. W.: 1966, Bull. Astron. Inst. Netherl. 19, 90.Google Scholar
Gaustad, J. E. and Spitzer, L.: 1961, Astrophys. J. 134, 771.CrossRefGoogle Scholar
Guillaume, C.: 1966, Bull. Astron. Inst. Netherl. 18, 175.Google Scholar
Guillaume, C., Van Rensbergen, W. and Underhill, A. B.: 1965, Bull. Astron. Inst. Netherl. 18, 106.Google Scholar
Hummer, D. G.: 1962, Monthly Notices Roy. Astron. Soc. 125, 21.CrossRefGoogle Scholar
Hummer, D. G.: 1964, Astrophys. J. 140, 276.CrossRefGoogle Scholar
Hummer, D. G.: 1968, Monthly Notices Roy. Astron. Soc. 138, 73.CrossRefGoogle Scholar
Hutchings, J. B.: 1968, Monthly Notices Roy. Astron. Soc. 141, 329.CrossRefGoogle Scholar
Jefferies, J. T. and Thomas, R. N.: 1958, Astrophys. J. 127, 667.CrossRefGoogle Scholar
Morton, D. C.: 1965, Astrophys. J. 141, 73.CrossRefGoogle Scholar
Stecher, T. P.: 1968, in Wolf-Rayet Stars (ed. by Gebbie, K. B. and Thomas, R. N.), N.B.S. Special Pub. 307, p. 65.Google Scholar
Thomas, R. N.: 1957, Astrophys. J. 125, 260.CrossRefGoogle Scholar
Thomas, R. N.: 1965, Some Aspects of Non-Equilibrium Thermodynamics in the Presence of a Radiation Field, University of Colorado Press, Boulder, Colo. A full set of references to work in this field is found here.Google Scholar
Underhill, A. B.: 1968a, Bull. Astron. Inst. Netherl. 19, 500.Google Scholar
Underhill, A. B.: 1968b, Bull. Astron. Inst. Netherl. 19, 526.Google Scholar