The Close Binary Fraction as a Function of Stellar Parameters in APOGEE: A Strong Anti-Correlation With $\alpha$ Abundances

We use observations from the APOGEE survey to explore the relationship between stellar parameters and multiplicity. We combine high-resolution repeat spectroscopy for 41,363 dwarf and subgiant stars with abundance measurements from the APOGEE pipeline and distances and stellar parameters derived usi...

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Main Authors Mazzola, Christine N, Badenes, Carles, Moe, Maxwell, Koposov, Sergey E, Kounkel, Marina, Kratter, Kaitlin, Covey, Kevin, Walker, Matthew G, Thompson, Todd A, Andrews, Brett, Freeman, Peter E, Anguiano, Borja, Carlberg, Joleen K, De Lee, Nathan M, Frinchaboy, Peter M, Lewis, Hannah M, Majewski, Steven, Nidever, David, Nitschelm, Christian, Price-Whelan, Adrian M, Roman-Lopes, Alexandre, Stassun, Keivan G, Troup, Nicholas W
Format Journal Article
LanguageEnglish
Published 17.07.2020
Subjects
Physics - Astrophysics of Galaxies
Physics - Solar and Stellar Astrophysics
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Abstract We use observations from the APOGEE survey to explore the relationship between stellar parameters and multiplicity. We combine high-resolution repeat spectroscopy for 41,363 dwarf and subgiant stars with abundance measurements from the APOGEE pipeline and distances and stellar parameters derived using \textit{Gaia} DR2 parallaxes from \cite{Sanders2018} to identify and characterise stellar multiples with periods below 30 years, corresponding to \drvm$\gtrsim$ 3 \kms, where \drvm\ is the maximum APOGEE-detected shift in the radial velocities. Chemical composition is responsible for most of the variation in the close binary fraction in our sample, with stellar parameters like mass and age playing a secondary role. In addition to the previously identified strong anti-correlation between the close binary fraction and \feh\, we find that high abundances of $\alpha$ elements also suppress multiplicity at most values of \feh\ sampled by APOGEE. The anti-correlation between $\alpha$ abundances and multiplicity is substantially steeper than that observed for Fe, suggesting C, O, and Si in the form of dust and ices dominate the opacity of primordial protostellar disks and their propensity for fragmentation via gravitational stability. Near \feh{} = 0 dex, the bias-corrected close binary fraction ($a<10$ au) decreases from $\approx$ 100 per cent at \alh{} = $-$0.2 dex to $\approx$ 15 per cent near \alh{} = 0.08 dex, with a suggestive turn-up to $\approx$20 per cent near \alh{} = 0.2. We conclude that the relationship between stellar multiplicity and chemical composition for sun-like dwarf stars in the field of the Milky Way is complex, and that this complexity should be accounted for in future studies of interacting binaries.
AbstractList We use observations from the APOGEE survey to explore the relationship between stellar parameters and multiplicity. We combine high-resolution repeat spectroscopy for 41,363 dwarf and subgiant stars with abundance measurements from the APOGEE pipeline and distances and stellar parameters derived using \textit{Gaia} DR2 parallaxes from \cite{Sanders2018} to identify and characterise stellar multiples with periods below 30 years, corresponding to \drvm$\gtrsim$ 3 \kms, where \drvm\ is the maximum APOGEE-detected shift in the radial velocities. Chemical composition is responsible for most of the variation in the close binary fraction in our sample, with stellar parameters like mass and age playing a secondary role. In addition to the previously identified strong anti-correlation between the close binary fraction and \feh\, we find that high abundances of $\alpha$ elements also suppress multiplicity at most values of \feh\ sampled by APOGEE. The anti-correlation between $\alpha$ abundances and multiplicity is substantially steeper than that observed for Fe, suggesting C, O, and Si in the form of dust and ices dominate the opacity of primordial protostellar disks and their propensity for fragmentation via gravitational stability. Near \feh{} = 0 dex, the bias-corrected close binary fraction ($a<10$ au) decreases from $\approx$ 100 per cent at \alh{} = $-$0.2 dex to $\approx$ 15 per cent near \alh{} = 0.08 dex, with a suggestive turn-up to $\approx$20 per cent near \alh{} = 0.2. We conclude that the relationship between stellar multiplicity and chemical composition for sun-like dwarf stars in the field of the Milky Way is complex, and that this complexity should be accounted for in future studies of interacting binaries.
Author Walker, Matthew G
Thompson, Todd A
Kounkel, Marina
Covey, Kevin
Mazzola, Christine N
Freeman, Peter E
Moe, Maxwell
Roman-Lopes, Alexandre
Koposov, Sergey E
Frinchaboy, Peter M
Anguiano, Borja
Badenes, Carles
Nidever, David
Nitschelm, Christian
Kratter, Kaitlin
Andrews, Brett
Majewski, Steven
De Lee, Nathan M
Carlberg, Joleen K
Lewis, Hannah M
Stassun, Keivan G
Troup, Nicholas W
Price-Whelan, Adrian M
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BackLink https://doi.org/10.1093/mnras/staa2859$$DView published paper (Access to full text may be restricted)
https://doi.org/10.48550/arXiv.2007.09059$$DView paper in arXiv
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Snippet We use observations from the APOGEE survey to explore the relationship between stellar parameters and multiplicity. We combine high-resolution repeat...
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Physics - Solar and Stellar Astrophysics
Title The Close Binary Fraction as a Function of Stellar Parameters in APOGEE: A Strong Anti-Correlation With $\alpha$ Abundances
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