The GALAH survey: co-orbiting stars and chemical tagging

Jeffrey D Simpson; Sarah Martell; Gary Da Costa; Andrew Casey; Kenneth Freeman; Jonathan Horner; Yuan-Sen Ting; David M Nataf; Geraint Francis Lewis; Melissa Ness; Daniel Zucker; P L Cottrell; K. Cotar; Martin Asplund; Sven Buder; Ly Duong; jane lin; Thomas Nordlander

doi:10.1093/mnras/sty3042

The GALAH survey: co-orbiting stars and chemical tagging

Jeffrey D Simpson, Sarah Martell, Gary Da Costa, Andrew Casey, Kenneth Freeman, Jonathan Horner, Yuan-Sen Ting, David M Nataf, Geraint Francis Lewis, Melissa Ness, Daniel Zucker, P L Cottrell, K. Cotar, Martin Asplund, Sven Buder, Ly Duong, jane lin, Thomas Nordlander

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Abstract

We present a study using the second data release of the GALAH survey of stellar parameters and elemental abundances of 15 pairs of stars identified by Oh et al. They identified these pairs as potentially co-moving pairs using proper motions and parallaxes from Gaia DR1. We find that 11 very wide (>1 pc) pairs of stars do in fact have similar Galactic orbits, while a further four claimed co-moving pairs are not truly co-orbiting. Eight of the 11 co-orbiting pairs have reliable stellar parameters and abundances, and we find that three of those are quite similar in their abundance patterns, while five have significant [Fe/H] differences. For the latter, this indicates that they could be co-orbiting because of the general dynamical coldness of the thin disc, or perhaps resonances induced by the Galaxy, rather than a shared formation site. Stars such as these, wide binaries, debris of past star formation episodes, and coincidental co-orbiters, are crucial for exploring the limits of chemical tagging in the Milky Way.

Original language	English
Pages (from-to)	5302-5315
Journal	Monthly Notices of the Royal Astronomical Society
Volume	482
Issue number	4
DOIs	https://doi.org/10.1093/mnras/sty3042
Publication status	Published - 2019

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Simpson, J. D., Martell, S., Da Costa, G., Casey, A., Freeman, K., Horner, J., Ting, Y.-S., Nataf, D. M., Lewis, G. F., Ness, M., Zucker, D., Cottrell, P. L., Cotar, K., Asplund, M., Buder, S., Duong, L., lin, J., & Nordlander, T. (2019). The GALAH survey: co-orbiting stars and chemical tagging. Monthly Notices of the Royal Astronomical Society, 482(4), 5302-5315. https://doi.org/10.1093/mnras/sty3042

@article{72bc671511b8404190c3c4787e3f2dd4,

title = "The GALAH survey: co-orbiting stars and chemical tagging",

abstract = "We present a study using the second data release of the GALAH survey of stellar parameters and elemental abundances of 15 pairs of stars identified by Oh et al. They identified these pairs as potentially co-moving pairs using proper motions and parallaxes from Gaia DR1. We find that 11 very wide (>1 pc) pairs of stars do in fact have similar Galactic orbits, while a further four claimed co-moving pairs are not truly co-orbiting. Eight of the 11 co-orbiting pairs have reliable stellar parameters and abundances, and we find that three of those are quite similar in their abundance patterns, while five have significant [Fe/H] differences. For the latter, this indicates that they could be co-orbiting because of the general dynamical coldness of the thin disc, or perhaps resonances induced by the Galaxy, rather than a shared formation site. Stars such as these, wide binaries, debris of past star formation episodes, and coincidental co-orbiters, are crucial for exploring the limits of chemical tagging in the Milky Way.",

author = "Simpson, {Jeffrey D} and Sarah Martell and {Da Costa}, Gary and Andrew Casey and Kenneth Freeman and Jonathan Horner and Yuan-Sen Ting and Nataf, {David M} and Lewis, {Geraint Francis} and Melissa Ness and Daniel Zucker and Cottrell, {P L} and K. Cotar and Martin Asplund and Sven Buder and Ly Duong and jane lin and Thomas Nordlander",

year = "2019",

doi = "10.1093/mnras/sty3042",

language = "English",

volume = "482",

pages = "5302--5315",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "1365-2966",

publisher = "Oxford University Press ",

number = "4",

}

Simpson, JD, Martell, S, Da Costa, G, Casey, A, Freeman, K, Horner, J, Ting, Y-S, Nataf, DM, Lewis, GF, Ness, M, Zucker, D, Cottrell, PL, Cotar, K, Asplund, M, Buder, S, Duong, L, lin, J & Nordlander, T 2019, 'The GALAH survey: co-orbiting stars and chemical tagging', Monthly Notices of the Royal Astronomical Society, vol. 482, no. 4, pp. 5302-5315. https://doi.org/10.1093/mnras/sty3042

TY - JOUR

T1 - The GALAH survey: co-orbiting stars and chemical tagging

AU - Simpson, Jeffrey D

AU - Martell, Sarah

AU - Da Costa, Gary

AU - Casey, Andrew

AU - Freeman, Kenneth

AU - Horner, Jonathan

AU - Ting, Yuan-Sen

AU - Nataf, David M

AU - Lewis, Geraint Francis

AU - Ness, Melissa

AU - Zucker, Daniel

AU - Cottrell, P L

AU - Cotar, K.

AU - Asplund, Martin

AU - Buder, Sven

AU - Duong, Ly

AU - lin, jane

AU - Nordlander, Thomas

PY - 2019

Y1 - 2019

N2 - We present a study using the second data release of the GALAH survey of stellar parameters and elemental abundances of 15 pairs of stars identified by Oh et al. They identified these pairs as potentially co-moving pairs using proper motions and parallaxes from Gaia DR1. We find that 11 very wide (>1 pc) pairs of stars do in fact have similar Galactic orbits, while a further four claimed co-moving pairs are not truly co-orbiting. Eight of the 11 co-orbiting pairs have reliable stellar parameters and abundances, and we find that three of those are quite similar in their abundance patterns, while five have significant [Fe/H] differences. For the latter, this indicates that they could be co-orbiting because of the general dynamical coldness of the thin disc, or perhaps resonances induced by the Galaxy, rather than a shared formation site. Stars such as these, wide binaries, debris of past star formation episodes, and coincidental co-orbiters, are crucial for exploring the limits of chemical tagging in the Milky Way.

AB - We present a study using the second data release of the GALAH survey of stellar parameters and elemental abundances of 15 pairs of stars identified by Oh et al. They identified these pairs as potentially co-moving pairs using proper motions and parallaxes from Gaia DR1. We find that 11 very wide (>1 pc) pairs of stars do in fact have similar Galactic orbits, while a further four claimed co-moving pairs are not truly co-orbiting. Eight of the 11 co-orbiting pairs have reliable stellar parameters and abundances, and we find that three of those are quite similar in their abundance patterns, while five have significant [Fe/H] differences. For the latter, this indicates that they could be co-orbiting because of the general dynamical coldness of the thin disc, or perhaps resonances induced by the Galaxy, rather than a shared formation site. Stars such as these, wide binaries, debris of past star formation episodes, and coincidental co-orbiters, are crucial for exploring the limits of chemical tagging in the Milky Way.

U2 - 10.1093/mnras/sty3042

DO - 10.1093/mnras/sty3042

M3 - Article

SN - 1365-2966

VL - 482

SP - 5302

EP - 5315

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 4

ER -

The GALAH survey: co-orbiting stars and chemical tagging

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