LI I 6708A BLEND IN THE SPECTRA OF STRONGLY MAGNETIC STAR HD166473

LI I 6708A BLEND IN THE SPECTRA OF STRONGLY MAGNETIC STAR HD166473

The analysis of Li I 6708 Ǻ blend in the spectra of HD166473 was performed for 6 rotational phases distributed over the whole rotational period (P~9.5 years). The magnetic  field model has been constructed based on the polarimetric measurements from Mathys et al. (2007). For each  observed phase the...

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Main Authors: A. V. Shavrina, V. Khalack, Y. Glagolevskij, D. Lyashko, J. Landstreet, F. Leone, N. S. Polosukhina, M. Giarrusso
Format: Article
Language:English
Published: Odessa I. I. Mechnykov National University 2013-11-01
Series:Odessa Astronomical Publications
Online Access:http://oap.onu.edu.ua/article/view/82294
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spelling doaj-c913e67f99c84ada9e81942c1a6560ba2020-11-25T03:04:48ZengOdessa I. I. Mechnykov National UniversityOdessa Astronomical Publications1810-42152013-11-0126111211410.18524/1810-4215.2013.26.8229482294LI I 6708A BLEND IN THE SPECTRA OF STRONGLY MAGNETIC STAR HD166473A. V. Shavrina0V. KhalackY. GlagolevskijD. LyashkoJ. LandstreetF. LeoneN. S. PolosukhinaM. GiarrussoMain Astronomical ObservatoryThe analysis of Li I 6708 Ǻ blend in the spectra of HD166473 was performed for 6 rotational phases distributed over the whole rotational period (P~9.5 years). The magnetic  field model has been constructed based on the polarimetric measurements from Mathys et al. (2007). For each  observed phase the modulus of the magnetic field has also been estimated from the modeling of Fe II 6147 Ǻ, 6149 Ǻ and Pr III 6706.7 Ǻ line profiles taking into account Zeeman magnetic splitting and the angle α between the magnetic axis and the line of sight. Our measurements of the surface magnetic field agree rather well with the results of Mathys et al. (2007). The lithium abundance in each phase was obtained from the fit of the observed Li I 6708 Ǻ line with the synthetic profile calculated assuming Paschen-Back splitting for the characteristics of magnetic  field estimated from the analysis of Pr III 6706.7  Ǻ line profile. We have also estimated the abundances of Ce II, Sm II, and Nd II, whose lines contribute to the Li 6708 Ǻ blend.http://oap.onu.edu.ua/article/view/82294
collection DOAJ
language English
format Article
sources DOAJ
author A. V. Shavrina
V. Khalack
Y. Glagolevskij
D. Lyashko
J. Landstreet
F. Leone
N. S. Polosukhina
M. Giarrusso
spellingShingle A. V. Shavrina
V. Khalack
Y. Glagolevskij
D. Lyashko
J. Landstreet
F. Leone
N. S. Polosukhina
M. Giarrusso
LI I 6708A BLEND IN THE SPECTRA OF STRONGLY MAGNETIC STAR HD166473
Odessa Astronomical Publications
author_facet A. V. Shavrina
V. Khalack
Y. Glagolevskij
D. Lyashko
J. Landstreet
F. Leone
N. S. Polosukhina
M. Giarrusso
author_sort A. V. Shavrina
title LI I 6708A BLEND IN THE SPECTRA OF STRONGLY MAGNETIC STAR HD166473
title_short LI I 6708A BLEND IN THE SPECTRA OF STRONGLY MAGNETIC STAR HD166473
title_full LI I 6708A BLEND IN THE SPECTRA OF STRONGLY MAGNETIC STAR HD166473
title_fullStr LI I 6708A BLEND IN THE SPECTRA OF STRONGLY MAGNETIC STAR HD166473
title_full_unstemmed LI I 6708A BLEND IN THE SPECTRA OF STRONGLY MAGNETIC STAR HD166473
title_sort li i 6708a blend in the spectra of strongly magnetic star hd166473
publisher Odessa I. I. Mechnykov National University
series Odessa Astronomical Publications
issn 1810-4215
publishDate 2013-11-01
description The analysis of Li I 6708 Ǻ blend in the spectra of HD166473 was performed for 6 rotational phases distributed over the whole rotational period (P~9.5 years). The magnetic  field model has been constructed based on the polarimetric measurements from Mathys et al. (2007). For each  observed phase the modulus of the magnetic field has also been estimated from the modeling of Fe II 6147 Ǻ, 6149 Ǻ and Pr III 6706.7 Ǻ line profiles taking into account Zeeman magnetic splitting and the angle α between the magnetic axis and the line of sight. Our measurements of the surface magnetic field agree rather well with the results of Mathys et al. (2007). The lithium abundance in each phase was obtained from the fit of the observed Li I 6708 Ǻ line with the synthetic profile calculated assuming Paschen-Back splitting for the characteristics of magnetic  field estimated from the analysis of Pr III 6706.7  Ǻ line profile. We have also estimated the abundances of Ce II, Sm II, and Nd II, whose lines contribute to the Li 6708 Ǻ blend.
url http://oap.onu.edu.ua/article/view/82294
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