Evidence for compact binary systems around Kepler red giants

I.~L. Colman; D. Huber; T.~R. Bedding; J.~S. Kuszlewicz; J. Yu; P.~G. Beck; Y. Elsworth; R.~A. García; S.~D. Kawaler; S. Mathur; D. Stello; T.~R. White

doi:10.1093/mnras/stx1056

Evidence for compact binary systems around Kepler red giants

I.~L. Colman, D. Huber, T.~R. Bedding, J.~S. Kuszlewicz, J. Yu, P.~G. Beck, Y. Elsworth, R.~A. García, S.~D. Kawaler, S. Mathur, D. Stello, T.~R. White

Physics and Astronomy

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Abstract

We present an analysis of 168 oscillating red giants from NASA’s Kepler mission that exhibit anomalous peaks in their Fourier amplitude spectra. These peaks result from ellipsoidal variations which are indicative of binary star systems, at frequencies such that the orbit of any stellar companion would be within the convective envelope of the red giant. Alternatively, the observed phenomenon may be due to a close binary orbiting a red giant in a triple system, or chance alignments of foreground or background binary systems contaminating the target pixel aperture. We identify 87 stars in the sample as chance alignments using a combination of pixel Fourier analysis and difference imaging. We find that in the remaining 81 cases the anomalous peaks are indistinguishable from the target star to within 4″, suggesting a physical association. We examine a Galaxia model of the Kepler field of view to estimate background star counts and find that it is highly unlikely that all targets can be explained by chance alignments. From this, we conclude that these stars may comprise a population of physically associated systems.

Original language	English
Journal	Royal Astronomical Society. Monthly Notices
Early online date	4 May 2017
DOIs	https://doi.org/10.1093/mnras/stx1056
Publication status	E-pub ahead of print - 4 May 2017

Keywords

Astrophysics - Solar and Stellar Astrophysics

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10.1093/mnras/stx1056

Colman_et_al_Evidence_compact_binary_systems_MNRAS
This is a pre-copyedited, author-produced version of an article accepted for publication in Monthly Notices of the Royal Astronomical Society following peer review. The version of record: Isabel L. Colman, Daniel Huber, Timothy R. Bedding, James S. Kuszlewicz, Jie Yu, Paul G. Beck, Yvonne Elsworth, Rafael A. García, Steven D. Kawaler, Savita Mathur, Dennis Stello, Timothy R. White; Evidence for compact binary systems around Kepler red giants. Mon Not R Astron Soc 2017, is available online at: https://doi.org/10.1093/mnras/stx1056 Checked 8/5/17
Accepted author manuscript, 1.8 MBLicence: None: All rights reserved

Asteroseismology and Helioseismology at Birmingham and Queen Mary
Chaplin, B., Elsworth, Y. & Miglio, A.
SCIENCE & TECHNOLOGY FACILITIES COUNCIL
1/04/15 → 30/09/18
Project: Research Councils

Cite this

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title = "Evidence for compact binary systems around Kepler red giants",

abstract = "We present an analysis of 168 oscillating red giants from NASA{\textquoteright}s Kepler mission that exhibit anomalous peaks in their Fourier amplitude spectra. These peaks result from ellipsoidal variations which are indicative of binary star systems, at frequencies such that the orbit of any stellar companion would be within the convective envelope of the red giant. Alternatively, the observed phenomenon may be due to a close binary orbiting a red giant in a triple system, or chance alignments of foreground or background binary systems contaminating the target pixel aperture. We identify 87 stars in the sample as chance alignments using a combination of pixel Fourier analysis and difference imaging. We find that in the remaining 81 cases the anomalous peaks are indistinguishable from the target star to within 4″, suggesting a physical association. We examine a Galaxia model of the Kepler field of view to estimate background star counts and find that it is highly unlikely that all targets can be explained by chance alignments. From this, we conclude that these stars may comprise a population of physically associated systems.",

keywords = "Astrophysics - Solar and Stellar Astrophysics",

author = "I.~L. Colman and D. Huber and T.~R. Bedding and J.~S. Kuszlewicz and J. Yu and P.~G. Beck and Y. Elsworth and R.~A. Garc{\'i}a and S.~D. Kawaler and S. Mathur and D. Stello and T.~R. White",

year = "2017",

month = may,

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doi = "10.1093/mnras/stx1056",

language = "English",

journal = "Royal Astronomical Society. Monthly Notices",

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T1 - Evidence for compact binary systems around Kepler red giants

AU - Colman, I.~L.

AU - Huber, D.

AU - Bedding, T.~R.

AU - Kuszlewicz, J.~S.

AU - Yu, J.

AU - Beck, P.~G.

AU - Elsworth, Y.

AU - García, R.~A.

AU - Kawaler, S.~D.

AU - Mathur, S.

AU - Stello, D.

AU - White, T.~R.

PY - 2017/5/4

Y1 - 2017/5/4

N2 - We present an analysis of 168 oscillating red giants from NASA’s Kepler mission that exhibit anomalous peaks in their Fourier amplitude spectra. These peaks result from ellipsoidal variations which are indicative of binary star systems, at frequencies such that the orbit of any stellar companion would be within the convective envelope of the red giant. Alternatively, the observed phenomenon may be due to a close binary orbiting a red giant in a triple system, or chance alignments of foreground or background binary systems contaminating the target pixel aperture. We identify 87 stars in the sample as chance alignments using a combination of pixel Fourier analysis and difference imaging. We find that in the remaining 81 cases the anomalous peaks are indistinguishable from the target star to within 4″, suggesting a physical association. We examine a Galaxia model of the Kepler field of view to estimate background star counts and find that it is highly unlikely that all targets can be explained by chance alignments. From this, we conclude that these stars may comprise a population of physically associated systems.

AB - We present an analysis of 168 oscillating red giants from NASA’s Kepler mission that exhibit anomalous peaks in their Fourier amplitude spectra. These peaks result from ellipsoidal variations which are indicative of binary star systems, at frequencies such that the orbit of any stellar companion would be within the convective envelope of the red giant. Alternatively, the observed phenomenon may be due to a close binary orbiting a red giant in a triple system, or chance alignments of foreground or background binary systems contaminating the target pixel aperture. We identify 87 stars in the sample as chance alignments using a combination of pixel Fourier analysis and difference imaging. We find that in the remaining 81 cases the anomalous peaks are indistinguishable from the target star to within 4″, suggesting a physical association. We examine a Galaxia model of the Kepler field of view to estimate background star counts and find that it is highly unlikely that all targets can be explained by chance alignments. From this, we conclude that these stars may comprise a population of physically associated systems.

KW - Astrophysics - Solar and Stellar Astrophysics

UR - https://arxiv.org/pdf/1705.00621.pdf

U2 - 10.1093/mnras/stx1056

DO - 10.1093/mnras/stx1056

M3 - Article

SN - 0035-8711

JO - Royal Astronomical Society. Monthly Notices

JF - Royal Astronomical Society. Monthly Notices

ER -

Evidence for compact binary systems around Kepler red giants

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Asteroseismology and Helioseismology at Birmingham and Queen Mary

Cite this