Geometry of giant star model atmospheres: a consistency test

U. Heiter; K. Eriksson

doi:10.1051/0004-6361:20064925

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Volume 452 / No 3 (June IV 2006)

A&A, 452 3 (2006) 1039-1048

Abstract

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Issue		A&A Volume 452, Number 3, June IV 2006


Page(s)		1039 - 1048
Section		Stellar atmospheres
DOI		https://doi.org/10.1051/0004-6361:20064925
Published online		06 June 2006

A&A 452, 1039-1048 (2006)

Geometry of giant star model atmospheres: a consistency test

U. Heiter and K. Eriksson

Department of Astronomy and Space Physics, Uppsala University, Box 515, 75120 Uppsala, Sweden e-mail: [Ulrike.Heiter;Kjell.Eriksson]@astro.uu.se

Received: 27 January 2006
Accepted: 9 March 2006

Abstract

Aims.We investigate the effect of a geometric inconsistency in the calculation of synthetic spectra of giant stars.

Methods.Spectra computed with model atmospheres calculated in spherical geometry while using the plane-parallel approximation for line formation calculations ( $s\_p$ ), as well as the fully plane-parallel case ( $p\_p$ ), are compared to the consistently spherical case ( $s\_s$ ).

Results.We present abundance differences for solar metallicity models with T_eff ranging from 4000 to 6500 K and $\log g$ from 0.5 to 3.0 [cgs]. The effects are smaller for $s\_p$ calculations (-0.1 dex in the worst case) than for the $p\_p$ case (up to +0.35 dex for minority species and at most -0.04 dex for majority species), both with respect to the $s\_s$ case. In the $s\_p$ case the differences increase slightly with temperature, while in the $p\_p$ case they show a more complex behaviour. In both cases the effects decrease with increasing $\log g$ and increase with equivalent width.

Conclusions.Within the parameter range of F, G and K giants, consistency seems to be less important than using a spherical model atmosphere. The abundance differences due to sphericity effects presented here can be used for error estimation in abundance studies relying on plane-parallel modelling.

Key words: stars: atmospheres / stars: late-type / techniques: spectroscopic / line: formation

© ESO, 2006

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