Radial mode widths in red giant stars spectra observed by Kepler

Radial mode widths in red giant stars spectra observed by Kepler

The Kepler space mission has observed many solar-like pulsators, and helped to decipher their fundamental parameters (e.g: mass, radius, rotation). Most of the achievements recently obtained in that domain result from the analysis of the mode frequencies. However, unique information on non-adiabatic...

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Main Authors: Vrard Mathieu, Mosser Benoît, Barban Caroline
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:EPJ Web of Conferences
Online Access:https://doi.org/10.1051/epjconf/201716004012
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spelling doaj-d02835e6156344c7be822eb51eb7df922021-08-02T07:28:51ZengEDP SciencesEPJ Web of Conferences2100-014X2017-01-011600401210.1051/epjconf/201716004012epjconf_azores2017_04012Radial mode widths in red giant stars spectra observed by KeplerVrard MathieuMosser BenoîtBarban CarolineThe Kepler space mission has observed many solar-like pulsators, and helped to decipher their fundamental parameters (e.g: mass, radius, rotation). Most of the achievements recently obtained in that domain result from the analysis of the mode frequencies. However, unique information on non-adiabatic physics derives from the height and width of the modes. In this study, we aim at measuring the mode widths of the pressure modes in thousands of Kepler red giants and to analyze their variations in function of stellar parameters. To achieve that, we used a peakbagging technique on the star radial modes. The results show a relation between the radial mode linewidth and the effective temperature of the star as theoretically predicted. We also unveil a clear dependence with mass and stellar evolution for the radial mode width. This means that the mode damping depends on the evolutionary status of the stars.https://doi.org/10.1051/epjconf/201716004012
collection DOAJ
language English
format Article
sources DOAJ
author Vrard Mathieu
Mosser Benoît
Barban Caroline
spellingShingle Vrard Mathieu
Mosser Benoît
Barban Caroline
Radial mode widths in red giant stars spectra observed by Kepler
EPJ Web of Conferences
author_facet Vrard Mathieu
Mosser Benoît
Barban Caroline
author_sort Vrard Mathieu
title Radial mode widths in red giant stars spectra observed by Kepler
title_short Radial mode widths in red giant stars spectra observed by Kepler
title_full Radial mode widths in red giant stars spectra observed by Kepler
title_fullStr Radial mode widths in red giant stars spectra observed by Kepler
title_full_unstemmed Radial mode widths in red giant stars spectra observed by Kepler
title_sort radial mode widths in red giant stars spectra observed by kepler
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2017-01-01
description The Kepler space mission has observed many solar-like pulsators, and helped to decipher their fundamental parameters (e.g: mass, radius, rotation). Most of the achievements recently obtained in that domain result from the analysis of the mode frequencies. However, unique information on non-adiabatic physics derives from the height and width of the modes. In this study, we aim at measuring the mode widths of the pressure modes in thousands of Kepler red giants and to analyze their variations in function of stellar parameters. To achieve that, we used a peakbagging technique on the star radial modes. The results show a relation between the radial mode linewidth and the effective temperature of the star as theoretically predicted. We also unveil a clear dependence with mass and stellar evolution for the radial mode width. This means that the mode damping depends on the evolutionary status of the stars.
url https://doi.org/10.1051/epjconf/201716004012
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AT mosserbenoit radialmodewidthsinredgiantstarsspectraobservedbykepler
AT barbancaroline radialmodewidthsinredgiantstarsspectraobservedbykepler
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