The GALAH Survey: No Chemical Evidence of an Extragalactic Origin for the Nyx Stream

Daniel B. Zucker; Jeffrey D. Simpson; Sarah L. Martell; Geraint F. Lewis; Andrew R. Casey; Yuan Sen Ting; Jonathan Horner; Thomas Nordlander; Rosemary F.G. Wyse; Tomaž Zwitter; Joss Bland-Hawthorn; Sven Buder; Martin Asplund; Gayandhi M. De Silva; Valentina D'Orazi; Ken C. Freeman; Michael R. Hayden; Janez Kos; Jane Lin; Karin Lind; Katharine J. Schlesinger; Sanjib Sharma; Dennis Stello

doi:10.3847/2041-8213/abf7cd

The GALAH Survey: No Chemical Evidence of an Extragalactic Origin for the Nyx Stream

Daniel B. Zucker, Jeffrey D. Simpson, Sarah L. Martell, Geraint F. Lewis, Andrew R. Casey, Yuan Sen Ting, Jonathan Horner, Thomas Nordlander, Rosemary F.G. Wyse, Tomaž Zwitter, Joss Bland-Hawthorn, Sven Buder, Martin Asplund, Gayandhi M. De Silva, Valentina D'Orazi, Ken C. Freeman, Michael R. Hayden, Janez Kos, Jane Lin, Karin LindKatharine J. Schlesinger, Sanjib Sharma, Dennis Stello

School of Physics and Astronomy

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

8 Citations (Scopus)

Abstract

The results from the ESA Gaia astrometric mission and deep photometric surveys have revolutionized our knowledge of the Milky Way. There are many ongoing efforts to search these data for stellar substructure to find evidence of individual accretion events that built up the Milky Way and its halo. One of these newly identified features, called Nyx, was announced as an accreted stellar stream traveling in the plane of the disk. Using a combination of elemental abundances and stellar parameters from the GALAH and Apache Point Observatory Galactic Evolution Experiment (APOGEE) surveys, we find that the abundances of the highest likelihood Nyx members are entirely consistent with membership of the thick disk, and inconsistent with a dwarf galaxy origin. We conclude that the postulated Nyx stream is most probably a high-velocity component of the Milky Way's thick disk. With the growing availability of large data sets including kinematics, stellar parameters, and detailed abundances, the probability of detecting chance associations increases, and hence new searches for substructure require confirmation across as many data dimensions as possible.

Original language	English
Article number	L30
Number of pages	7
Journal	The Astrophysical Journal Letters
Volume	912
Issue number	2
DOIs	https://doi.org/10.3847/2041-8213/abf7cd
Publication status	Published - 10 May 2021

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Zucker, D. B., Simpson, J. D., Martell, S. L., Lewis, G. F., Casey, A. R., Ting, Y. S., Horner, J., Nordlander, T., Wyse, R. F. G., Zwitter, T., Bland-Hawthorn, J., Buder, S., Asplund, M., De Silva, G. M., D'Orazi, V., Freeman, K. C., Hayden, M. R., Kos, J., Lin, J., ... Stello, D. (2021). The GALAH Survey: No Chemical Evidence of an Extragalactic Origin for the Nyx Stream. The Astrophysical Journal Letters, 912(2), Article L30. https://doi.org/10.3847/2041-8213/abf7cd

@article{8a25384011e74e4ca2ff34a1079f9652,

title = "The GALAH Survey: No Chemical Evidence of an Extragalactic Origin for the Nyx Stream",

abstract = "The results from the ESA Gaia astrometric mission and deep photometric surveys have revolutionized our knowledge of the Milky Way. There are many ongoing efforts to search these data for stellar substructure to find evidence of individual accretion events that built up the Milky Way and its halo. One of these newly identified features, called Nyx, was announced as an accreted stellar stream traveling in the plane of the disk. Using a combination of elemental abundances and stellar parameters from the GALAH and Apache Point Observatory Galactic Evolution Experiment (APOGEE) surveys, we find that the abundances of the highest likelihood Nyx members are entirely consistent with membership of the thick disk, and inconsistent with a dwarf galaxy origin. We conclude that the postulated Nyx stream is most probably a high-velocity component of the Milky Way's thick disk. With the growing availability of large data sets including kinematics, stellar parameters, and detailed abundances, the probability of detecting chance associations increases, and hence new searches for substructure require confirmation across as many data dimensions as possible.",

author = "Zucker, {Daniel B.} and Simpson, {Jeffrey D.} and Martell, {Sarah L.} and Lewis, {Geraint F.} and Casey, {Andrew R.} and Ting, {Yuan Sen} and Jonathan Horner and Thomas Nordlander and Wyse, {Rosemary F.G.} and Toma{\v z} Zwitter and Joss Bland-Hawthorn and Sven Buder and Martin Asplund and {De Silva}, {Gayandhi M.} and Valentina D'Orazi and Freeman, {Ken C.} and Hayden, {Michael R.} and Janez Kos and Jane Lin and Karin Lind and Schlesinger, {Katharine J.} and Sanjib Sharma and Dennis Stello",

year = "2021",

month = may,

day = "10",

doi = "10.3847/2041-8213/abf7cd",

language = "English",

volume = "912",

journal = "The Astrophysical Journal Letters",

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Zucker, DB, Simpson, JD, Martell, SL, Lewis, GF, Casey, AR, Ting, YS, Horner, J, Nordlander, T, Wyse, RFG, Zwitter, T, Bland-Hawthorn, J, Buder, S, Asplund, M, De Silva, GM, D'Orazi, V, Freeman, KC, Hayden, MR, Kos, J, Lin, J, Lind, K, Schlesinger, KJ, Sharma, S & Stello, D 2021, 'The GALAH Survey: No Chemical Evidence of an Extragalactic Origin for the Nyx Stream', The Astrophysical Journal Letters, vol. 912, no. 2, L30. https://doi.org/10.3847/2041-8213/abf7cd

TY - JOUR

T1 - The GALAH Survey

T2 - No Chemical Evidence of an Extragalactic Origin for the Nyx Stream

AU - Zucker, Daniel B.

AU - Simpson, Jeffrey D.

AU - Martell, Sarah L.

AU - Lewis, Geraint F.

AU - Casey, Andrew R.

AU - Ting, Yuan Sen

AU - Horner, Jonathan

AU - Nordlander, Thomas

AU - Wyse, Rosemary F.G.

AU - Zwitter, Tomaž

AU - Bland-Hawthorn, Joss

AU - Buder, Sven

AU - Asplund, Martin

AU - De Silva, Gayandhi M.

AU - D'Orazi, Valentina

AU - Freeman, Ken C.

AU - Hayden, Michael R.

AU - Kos, Janez

AU - Lin, Jane

AU - Lind, Karin

AU - Schlesinger, Katharine J.

AU - Sharma, Sanjib

AU - Stello, Dennis

PY - 2021/5/10

Y1 - 2021/5/10

N2 - The results from the ESA Gaia astrometric mission and deep photometric surveys have revolutionized our knowledge of the Milky Way. There are many ongoing efforts to search these data for stellar substructure to find evidence of individual accretion events that built up the Milky Way and its halo. One of these newly identified features, called Nyx, was announced as an accreted stellar stream traveling in the plane of the disk. Using a combination of elemental abundances and stellar parameters from the GALAH and Apache Point Observatory Galactic Evolution Experiment (APOGEE) surveys, we find that the abundances of the highest likelihood Nyx members are entirely consistent with membership of the thick disk, and inconsistent with a dwarf galaxy origin. We conclude that the postulated Nyx stream is most probably a high-velocity component of the Milky Way's thick disk. With the growing availability of large data sets including kinematics, stellar parameters, and detailed abundances, the probability of detecting chance associations increases, and hence new searches for substructure require confirmation across as many data dimensions as possible.

AB - The results from the ESA Gaia astrometric mission and deep photometric surveys have revolutionized our knowledge of the Milky Way. There are many ongoing efforts to search these data for stellar substructure to find evidence of individual accretion events that built up the Milky Way and its halo. One of these newly identified features, called Nyx, was announced as an accreted stellar stream traveling in the plane of the disk. Using a combination of elemental abundances and stellar parameters from the GALAH and Apache Point Observatory Galactic Evolution Experiment (APOGEE) surveys, we find that the abundances of the highest likelihood Nyx members are entirely consistent with membership of the thick disk, and inconsistent with a dwarf galaxy origin. We conclude that the postulated Nyx stream is most probably a high-velocity component of the Milky Way's thick disk. With the growing availability of large data sets including kinematics, stellar parameters, and detailed abundances, the probability of detecting chance associations increases, and hence new searches for substructure require confirmation across as many data dimensions as possible.

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U2 - 10.3847/2041-8213/abf7cd

DO - 10.3847/2041-8213/abf7cd

M3 - Review Article

AN - SCOPUS:85106011766

SN - 2041-8205

VL - 912

JO - The Astrophysical Journal Letters

JF - The Astrophysical Journal Letters

IS - 2

M1 - L30

ER -

The GALAH Survey: No Chemical Evidence of an Extragalactic Origin for the Nyx Stream

Abstract

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