Bibcode
DOI
García-Gil, Alejandro; García López, Ramón J.; Allende Prieto, Carlos; Hubeny, Ivan
Bibliographical reference
The Astrophysical Journal, Volume 623, Issue 1, pp. 460-471.
Advertised on:
4
2005
Journal
Citations
14
Refereed citations
14
Description
UV, optical, and near-IR spectra of Vega have been combined to test our
understanding of stellar atmospheric opacities and to examine the
possibility of constraining chemical abundances from low-resolution UV
fluxes. We have carried out a detailed analysis assuming local
thermodynamic equilibrium (LTE) to identify the most important
contributors to the UV continuous opacity: H, H-, C I, and Si
II. Our analysis also assumes that Vega is spherically symmetric and
that its atmosphere is well described with the plane-parallel
approximation. By comparing observations and computed fluxes, we have
been able to discriminate between two different flux scales that have
been proposed, the IUE-INES and the HST scales; we favor the latter. The
effective temperature and angular diameter derived from the analysis of
observed optical and near-UV spectra are in very good agreement with
previous determinations based on different techniques. The silicon
abundance is poorly constrained by the UV observations of the continuum
and strong lines, but the situation is more favorable for carbon, and
the abundances inferred from the UV continuum and optical absorption
lines are in good agreement. Some spectral intervals in the UV spectrum
of Vega poorly reproduced by the calculations are likely affected by
deviations from LTE, but we conclude that our understanding of UV
atmospheric opacities is fairly complete for early A-type stars.