Chemical Abundances and Ages of the Bulge Stars in APOGEE High-velocity Peaks

Yingying Zhou; Juntai Shen; Chao Liu; Zhao Yu Li; Shude Mao; Andrea Kunder; R. Michael Rich; G. Zasowski; J. G. Fernandez-Trincado; Steven R. Majewski; Chien Cheng Lin; Doug Geisler; Baitian Tang; S. Villanova; A. Roman-Lopes; M. Schultheis; David L. Nidever; Andrés Meza; Kaike Pan; D. V. Bizyaev

doi:10.3847/1538-4357/aa88c7

Chemical Abundances and Ages of the Bulge Stars in APOGEE High-velocity Peaks

Yingying Zhou, Juntai Shen, Chao Liu, Zhao Yu Li, Shude Mao, Andrea Kunder, R. Michael Rich, G. Zasowski, J. G. Fernandez-Trincado, Steven R. Majewski, Chien Cheng Lin, Doug Geisler, Baitian Tang, S. Villanova, A. Roman-Lopes, M. Schultheis, David L. Nidever, Andrés Meza, Kaike Pan, D. V. Bizyaev

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Abstract

A cold, high-velocity (HV, ∼200 km s^-1) peak was first reported in several Galactic bulge fields based on the Apache Point Observatory Galaxy Evolution Experiment (APOGEE) commissioning observations. Both the existence and the nature of the HV peak are still under debate. Here we revisit this feature with the latest APOGEE DR13 data. We find that most of the low-latitude bulge fields display a skewed Gaussian distribution with an HV shoulder. However, only 3 out of 53 fields show distinct HV peaks around 200 km s^-1. The velocity distribution can be well described by Gauss-Hermite polynomials, except for the three fields showing clear HV peaks. We find that the correlation between the skewness parameter (h ₃) and the mean velocity (), instead of a distinctive HV peak, is a strong indicator of the bar. It was recently suggested that the HV peak is composed of preferentially young stars. We choose three fields showing clear HV peaks to test this hypothesis using the metallicity, [α/M], and [C/N] as age proxies. We find that both young and old stars show HV features. The similarity between the chemical abundances of stars in the HV peaks and the main component indicates that they are not systematically different in terms of chemical abundance or age. In contrast, there are clear differences in chemical space between stars in the Sagittarius dwarf and the bulge stars. The strong HV peaks off-plane are still to be explained properly and could be different in nature.

Original language	English
Article number	74
Journal	Astrophysical Journal
Volume	847
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/aa88c7
Publication status	Published - 20 Sept 2017

Keywords

Galaxy: abundances
Galaxy: bulge
Galaxy: kinematics and dynamics
Galaxy: structure

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Zhou, Y., Shen, J., Liu, C., Li, Z. Y., Mao, S., Kunder, A., Rich, R. M., Zasowski, G., Fernandez-Trincado, J. G., Majewski, S. R., Lin, C. C., Geisler, D., Tang, B., Villanova, S., Roman-Lopes, A., Schultheis, M., Nidever, D. L., Meza, A., Pan, K., & Bizyaev, D. V. (2017). Chemical Abundances and Ages of the Bulge Stars in APOGEE High-velocity Peaks. Astrophysical Journal, 847(1), Article 74. https://doi.org/10.3847/1538-4357/aa88c7

@article{528d0e299afb49259c339185dced42e3,

title = "Chemical Abundances and Ages of the Bulge Stars in APOGEE High-velocity Peaks",

abstract = "A cold, high-velocity (HV, ∼200 km s-1) peak was first reported in several Galactic bulge fields based on the Apache Point Observatory Galaxy Evolution Experiment (APOGEE) commissioning observations. Both the existence and the nature of the HV peak are still under debate. Here we revisit this feature with the latest APOGEE DR13 data. We find that most of the low-latitude bulge fields display a skewed Gaussian distribution with an HV shoulder. However, only 3 out of 53 fields show distinct HV peaks around 200 km s-1. The velocity distribution can be well described by Gauss-Hermite polynomials, except for the three fields showing clear HV peaks. We find that the correlation between the skewness parameter (h 3) and the mean velocity (), instead of a distinctive HV peak, is a strong indicator of the bar. It was recently suggested that the HV peak is composed of preferentially young stars. We choose three fields showing clear HV peaks to test this hypothesis using the metallicity, [α/M], and [C/N] as age proxies. We find that both young and old stars show HV features. The similarity between the chemical abundances of stars in the HV peaks and the main component indicates that they are not systematically different in terms of chemical abundance or age. In contrast, there are clear differences in chemical space between stars in the Sagittarius dwarf and the bulge stars. The strong HV peaks off-plane are still to be explained properly and could be different in nature.",

keywords = "Galaxy: abundances, Galaxy: bulge, Galaxy: kinematics and dynamics, Galaxy: structure",

author = "Yingying Zhou and Juntai Shen and Chao Liu and Li, {Zhao Yu} and Shude Mao and Andrea Kunder and Rich, {R. Michael} and G. Zasowski and Fernandez-Trincado, {J. G.} and Majewski, {Steven R.} and Lin, {Chien Cheng} and Doug Geisler and Baitian Tang and S. Villanova and A. Roman-Lopes and M. Schultheis and Nidever, {David L.} and Andr{\'e}s Meza and Kaike Pan and Bizyaev, {D. V.}",

year = "2017",

month = sep,

day = "20",

doi = "10.3847/1538-4357/aa88c7",

language = "English",

volume = "847",

journal = "Astrophysical Journal",

issn = "0004-637X",

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Zhou, Y, Shen, J, Liu, C, Li, ZY, Mao, S, Kunder, A, Rich, RM, Zasowski, G, Fernandez-Trincado, JG, Majewski, SR, Lin, CC, Geisler, D, Tang, B, Villanova, S, Roman-Lopes, A, Schultheis, M, Nidever, DL, Meza, A, Pan, K & Bizyaev, DV 2017, 'Chemical Abundances and Ages of the Bulge Stars in APOGEE High-velocity Peaks', Astrophysical Journal, vol. 847, no. 1, 74. https://doi.org/10.3847/1538-4357/aa88c7

TY - JOUR

T1 - Chemical Abundances and Ages of the Bulge Stars in APOGEE High-velocity Peaks

AU - Zhou, Yingying

AU - Shen, Juntai

AU - Liu, Chao

AU - Li, Zhao Yu

AU - Mao, Shude

AU - Kunder, Andrea

AU - Rich, R. Michael

AU - Zasowski, G.

AU - Fernandez-Trincado, J. G.

AU - Majewski, Steven R.

AU - Lin, Chien Cheng

AU - Geisler, Doug

AU - Tang, Baitian

AU - Villanova, S.

AU - Roman-Lopes, A.

AU - Schultheis, M.

AU - Nidever, David L.

AU - Meza, Andrés

AU - Pan, Kaike

AU - Bizyaev, D. V.

PY - 2017/9/20

Y1 - 2017/9/20

N2 - A cold, high-velocity (HV, ∼200 km s-1) peak was first reported in several Galactic bulge fields based on the Apache Point Observatory Galaxy Evolution Experiment (APOGEE) commissioning observations. Both the existence and the nature of the HV peak are still under debate. Here we revisit this feature with the latest APOGEE DR13 data. We find that most of the low-latitude bulge fields display a skewed Gaussian distribution with an HV shoulder. However, only 3 out of 53 fields show distinct HV peaks around 200 km s-1. The velocity distribution can be well described by Gauss-Hermite polynomials, except for the three fields showing clear HV peaks. We find that the correlation between the skewness parameter (h 3) and the mean velocity (), instead of a distinctive HV peak, is a strong indicator of the bar. It was recently suggested that the HV peak is composed of preferentially young stars. We choose three fields showing clear HV peaks to test this hypothesis using the metallicity, [α/M], and [C/N] as age proxies. We find that both young and old stars show HV features. The similarity between the chemical abundances of stars in the HV peaks and the main component indicates that they are not systematically different in terms of chemical abundance or age. In contrast, there are clear differences in chemical space between stars in the Sagittarius dwarf and the bulge stars. The strong HV peaks off-plane are still to be explained properly and could be different in nature.

AB - A cold, high-velocity (HV, ∼200 km s-1) peak was first reported in several Galactic bulge fields based on the Apache Point Observatory Galaxy Evolution Experiment (APOGEE) commissioning observations. Both the existence and the nature of the HV peak are still under debate. Here we revisit this feature with the latest APOGEE DR13 data. We find that most of the low-latitude bulge fields display a skewed Gaussian distribution with an HV shoulder. However, only 3 out of 53 fields show distinct HV peaks around 200 km s-1. The velocity distribution can be well described by Gauss-Hermite polynomials, except for the three fields showing clear HV peaks. We find that the correlation between the skewness parameter (h 3) and the mean velocity (), instead of a distinctive HV peak, is a strong indicator of the bar. It was recently suggested that the HV peak is composed of preferentially young stars. We choose three fields showing clear HV peaks to test this hypothesis using the metallicity, [α/M], and [C/N] as age proxies. We find that both young and old stars show HV features. The similarity between the chemical abundances of stars in the HV peaks and the main component indicates that they are not systematically different in terms of chemical abundance or age. In contrast, there are clear differences in chemical space between stars in the Sagittarius dwarf and the bulge stars. The strong HV peaks off-plane are still to be explained properly and could be different in nature.

KW - Galaxy: abundances

KW - Galaxy: bulge

KW - Galaxy: kinematics and dynamics

KW - Galaxy: structure

UR - http://www.scopus.com/inward/record.url?scp=85030166496&partnerID=8YFLogxK

U2 - 10.3847/1538-4357/aa88c7

DO - 10.3847/1538-4357/aa88c7

M3 - Article

AN - SCOPUS:85030166496

SN - 0004-637X

VL - 847

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 74

ER -

Chemical Abundances and Ages of the Bulge Stars in APOGEE High-velocity Peaks

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Keywords

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