Observational Δν-ρ- relation for δ               Sct stars using eclipsing binaries and space photometry

A. García Hernández; S. Martín-Ruiz; Mário J. P. F. G. Monteiro; J. C. Suárez; D. R. Reese; J. Pascual-Granado; R. Garrido

doi:10.1088/2041-8205/811/2/L29

Observational Δν-ρ^- relation for δ Sct stars using eclipsing binaries and space photometry

A. García Hernández, S. Martín-Ruiz, Mário J. P. F. G. Monteiro, J. C. Suárez, D. R. Reese, J. Pascual-Granado, R. Garrido

Physics and Astronomy

Research output: Contribution to journal › Article › peer-review

33 Citations (Scopus)

Abstract

Delta Scuti (δ Sct) stars are intermediate-mass pulsators, whose intrinsic oscillations have been studied for decades. However, modeling their pulsations remains a real theoretical challenge, thereby even hampering the precise determination of global stellar parameters. In this work, we used space photometry observations of eclipsing binaries with a δ Sct component to obtain reliable physical parameters and oscillation frequencies. Using that information, we derived an observational scaling relation between the stellar mean density and a frequency pattern in the oscillation spectrum. This pattern is analogous to the solar-like large separation but in the low order regime. We also show that this relation is independent of the rotation rate. These findings open the possibility of accurately characterizing this type of pulsator and validate the frequency pattern as a new observable for δ Sct stars.

Original language	English
Article number	L29
Number of pages	6
Journal	Astrophysical Journal Letters
Volume	811
Issue number	2
DOIs	https://doi.org/10.1088/2041-8205/811/2/L29
Publication status	Published - 28 Sept 2015

Keywords

binaries: eclipsing
stars: oscillations including pulsations
stars: rotation
stars: variables: delta Scuti

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https://doi.org/10.1088/2041-8205/811/2/L29Licence: None: All rights reserved

Cite this

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title = "Observational Δν-ρ- relation for δ Sct stars using eclipsing binaries and space photometry",

abstract = "Delta Scuti (δ Sct) stars are intermediate-mass pulsators, whose intrinsic oscillations have been studied for decades. However, modeling their pulsations remains a real theoretical challenge, thereby even hampering the precise determination of global stellar parameters. In this work, we used space photometry observations of eclipsing binaries with a δ Sct component to obtain reliable physical parameters and oscillation frequencies. Using that information, we derived an observational scaling relation between the stellar mean density and a frequency pattern in the oscillation spectrum. This pattern is analogous to the solar-like large separation but in the low order regime. We also show that this relation is independent of the rotation rate. These findings open the possibility of accurately characterizing this type of pulsator and validate the frequency pattern as a new observable for δ Sct stars.",

keywords = "binaries: eclipsing, stars: oscillations including pulsations, stars: rotation, stars: variables: delta Scuti",

author = "{Garc{\'i}a Hern{\'a}ndez}, A. and S. Mart{\'i}n-Ruiz and Monteiro, {M{\'a}rio J. P. F. G.} and Su{\'a}rez, {J. C.} and Reese, {D. R.} and J. Pascual-Granado and R. Garrido",

year = "2015",

month = sep,

day = "28",

doi = "10.1088/2041-8205/811/2/L29",

language = "English",

volume = "811",

journal = "Astrophysical Journal Letters",

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T1 - Observational Δν-ρ- relation for δ Sct stars using eclipsing binaries and space photometry

AU - García Hernández, A.

AU - Martín-Ruiz, S.

AU - Monteiro, Mário J. P. F. G.

AU - Suárez, J. C.

AU - Reese, D. R.

AU - Pascual-Granado, J.

AU - Garrido, R.

PY - 2015/9/28

Y1 - 2015/9/28

N2 - Delta Scuti (δ Sct) stars are intermediate-mass pulsators, whose intrinsic oscillations have been studied for decades. However, modeling their pulsations remains a real theoretical challenge, thereby even hampering the precise determination of global stellar parameters. In this work, we used space photometry observations of eclipsing binaries with a δ Sct component to obtain reliable physical parameters and oscillation frequencies. Using that information, we derived an observational scaling relation between the stellar mean density and a frequency pattern in the oscillation spectrum. This pattern is analogous to the solar-like large separation but in the low order regime. We also show that this relation is independent of the rotation rate. These findings open the possibility of accurately characterizing this type of pulsator and validate the frequency pattern as a new observable for δ Sct stars.

AB - Delta Scuti (δ Sct) stars are intermediate-mass pulsators, whose intrinsic oscillations have been studied for decades. However, modeling their pulsations remains a real theoretical challenge, thereby even hampering the precise determination of global stellar parameters. In this work, we used space photometry observations of eclipsing binaries with a δ Sct component to obtain reliable physical parameters and oscillation frequencies. Using that information, we derived an observational scaling relation between the stellar mean density and a frequency pattern in the oscillation spectrum. This pattern is analogous to the solar-like large separation but in the low order regime. We also show that this relation is independent of the rotation rate. These findings open the possibility of accurately characterizing this type of pulsator and validate the frequency pattern as a new observable for δ Sct stars.

KW - binaries: eclipsing

KW - stars: oscillations including pulsations

KW - stars: rotation

KW - stars: variables: delta Scuti

UR - http://stacks.iop.org/2041-8205/811/i=2/a=L29?key=crossref.69d8394372d2935b01a48dc918ca2ba7

U2 - 10.1088/2041-8205/811/2/L29

DO - 10.1088/2041-8205/811/2/L29

M3 - Article

SN - 2041-8205

VL - 811

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

IS - 2

M1 - L29

ER -

Observational Δν-ρ- relation for δ Sct stars using eclipsing binaries and space photometry

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Keywords

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Observational Δν-ρ^- relation for δ Sct stars using eclipsing binaries and space photometry