Extraction of seismic indices and stellar granulation parameters for CoRoT and Kepler red giants using the MLEUP method. Main results and perspectives

Extraction of seismic indices and stellar granulation parameters for CoRoT and Kepler red giants using the MLEUP method. Main results and perspectives

In the framework of the SPACEInn project, a Stellar Seismic Indices (SSI - http://ssi.lesia.obspm.fr/) database was developed in order to provide the scientific community with oscillations and granulation signatures for a large set of red-giant type stars. For this purpose, we have developed the met...

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Main Authors: de Assis Peralta Raphaël, Samadi Réza, Michel Éric
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:EPJ Web of Conferences
Online Access:https://doi.org/10.1051/epjconf/201716001012
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spelling doaj-56d731783d4446db8a35fd36f303b4932021-08-02T01:49:53ZengEDP SciencesEPJ Web of Conferences2100-014X2017-01-011600101210.1051/epjconf/201716001012epjconf_azores2017_01012Extraction of seismic indices and stellar granulation parameters for CoRoT and Kepler red giants using the MLEUP method. Main results and perspectivesde Assis Peralta RaphaëlSamadi RézaMichel ÉricIn the framework of the SPACEInn project, a Stellar Seismic Indices (SSI - http://ssi.lesia.obspm.fr/) database was developed in order to provide the scientific community with oscillations and granulation signatures for a large set of red-giant type stars. For this purpose, we have developed the method MLEUP able to extract simultaneously the seismic indices (the equidistance Δv, the frequency vmax and the height Henv of the maximum oscillation power) and granulation parameters (the e-folding time τeff and the variance of the integrated brightness fluctuations σ2). This method has been tested in terms of precision and accuracy, using Monte Carlo simulations. Then we applied it to all stars observed by CoRoT and all long-cadence Kepler lightcurves. In total, we yield seismic indices and granulation parameters for about 5,000 stars for CoRoT and more than 13,000 for Kepler. In this paper, we focus on the main results for both seismic indices Δv and vmax as well as for the stellar parameters (mass, radius and luminosity) seismically inferred. Then, in the perspective of Gaia, we discuss about the possibility to derive other seismic quantities like e.g. a seismic effective temperature.https://doi.org/10.1051/epjconf/201716001012
collection DOAJ
language English
format Article
sources DOAJ
author de Assis Peralta Raphaël
Samadi Réza
Michel Éric
spellingShingle de Assis Peralta Raphaël
Samadi Réza
Michel Éric
Extraction of seismic indices and stellar granulation parameters for CoRoT and Kepler red giants using the MLEUP method. Main results and perspectives
EPJ Web of Conferences
author_facet de Assis Peralta Raphaël
Samadi Réza
Michel Éric
author_sort de Assis Peralta Raphaël
title Extraction of seismic indices and stellar granulation parameters for CoRoT and Kepler red giants using the MLEUP method. Main results and perspectives
title_short Extraction of seismic indices and stellar granulation parameters for CoRoT and Kepler red giants using the MLEUP method. Main results and perspectives
title_full Extraction of seismic indices and stellar granulation parameters for CoRoT and Kepler red giants using the MLEUP method. Main results and perspectives
title_fullStr Extraction of seismic indices and stellar granulation parameters for CoRoT and Kepler red giants using the MLEUP method. Main results and perspectives
title_full_unstemmed Extraction of seismic indices and stellar granulation parameters for CoRoT and Kepler red giants using the MLEUP method. Main results and perspectives
title_sort extraction of seismic indices and stellar granulation parameters for corot and kepler red giants using the mleup method. main results and perspectives
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2017-01-01
description In the framework of the SPACEInn project, a Stellar Seismic Indices (SSI - http://ssi.lesia.obspm.fr/) database was developed in order to provide the scientific community with oscillations and granulation signatures for a large set of red-giant type stars. For this purpose, we have developed the method MLEUP able to extract simultaneously the seismic indices (the equidistance Δv, the frequency vmax and the height Henv of the maximum oscillation power) and granulation parameters (the e-folding time τeff and the variance of the integrated brightness fluctuations σ2). This method has been tested in terms of precision and accuracy, using Monte Carlo simulations. Then we applied it to all stars observed by CoRoT and all long-cadence Kepler lightcurves. In total, we yield seismic indices and granulation parameters for about 5,000 stars for CoRoT and more than 13,000 for Kepler. In this paper, we focus on the main results for both seismic indices Δv and vmax as well as for the stellar parameters (mass, radius and luminosity) seismically inferred. Then, in the perspective of Gaia, we discuss about the possibility to derive other seismic quantities like e.g. a seismic effective temperature.
url https://doi.org/10.1051/epjconf/201716001012
work_keys_str_mv AT deassisperaltaraphael extractionofseismicindicesandstellargranulationparametersforcorotandkeplerredgiantsusingthemleupmethodmainresultsandperspectives
AT samadireza extractionofseismicindicesandstellargranulationparametersforcorotandkeplerredgiantsusingthemleupmethodmainresultsandperspectives
AT micheleric extractionofseismicindicesandstellargranulationparametersforcorotandkeplerredgiantsusingthemleupmethodmainresultsandperspectives
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