Astronomy and Astrophysics – Astrophysics
Scientific paper
2004-06-21
Astrophys.J. 610 (2004) L61-L64
Astronomy and Astrophysics
Astrophysics
4 pages, 4 figures, published 2004 June 17 in ApJL, 610
Scientific paper
10.1086/423202
We investigate the synthesis of the Balmer and Paschen lines of the quiet Sun, using both classical semi-empirical and theoretical model atmospheres, modern line broadening theory and non-LTE line-formation. The computations alleviate long-standing discrepancies between LTE predictions and the observed lines. Theoretical and semi-empirical model atmospheres without a chromosphere on the one hand and semi-empirical models with a chromosphere on the other produce two physically disjoint solutions for the run of non-LTE level populations, including HII, throughout the model stratification. The resulting synthetic non-LTE line profiles are practically identical and reproduce the observation in either case, despite large differences in the line-formation depths, e.g., a chromospheric origin of the Halpha core (in concordance with observation) versus a photospheric origin. The findings are of much broader interest, assuming the Sun to be a prototype cool dwarf star. A consistent account for chromospheres in cool star analyses is required, due to their potential to change atmospheric structure via non-LTE effects on the ionization balance of hydrogen and thus the free electron pool. The latter in turn affects the main opacity source H-. This will in particular affect the atmospheres of metal-poor and evolved stars, in which the contribution of hydrogen to the electron pool becomes dominant.
Butler Keith
Przybilla Norbert
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