Exploring the stellar age distribution of the milky way bulge using APOGEE

Sten Hasselquist; Gail Zasowski; Diane K. Feuillet; Mathias Schultheis; David M. Nataf; Borja Anguiano; Rachael L. Beaton; Timothy C. Beers; Roger E. Cohen; Katia Cunha; José G. Fernández-Trincado; D. A. García-Hernández; Doug Geisler; Jon A. Holtzman; Jennifer Johnson; Richard R. Lane; Steven R. Majewski; Christian Moni Bidin; Christian Nitschelm; Alexandre Roman-Lopes; Ricardo Schiavon; Verne V. Smith; Jennifer Sobeck

doi:10.3847/1538-4357/abaeee

Exploring the stellar age distribution of the milky way bulge using APOGEE

Sten Hasselquist, Gail Zasowski, Diane K. Feuillet, Mathias Schultheis, David M. Nataf, Borja Anguiano, Rachael L. Beaton, Timothy C. Beers, Roger E. Cohen, Katia Cunha, José G. Fernández-Trincado, D. A. García-Hernández, Doug Geisler, Jon A. Holtzman, Jennifer Johnson, Richard R. Lane, Steven R. Majewski, Christian Moni Bidin, Christian Nitschelm, Alexandre Roman-LopesRicardo Schiavon, Verne V. Smith, Jennifer Sobeck

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

12 Scopus citations

Abstract

We present stellar age distributions of the Milky Way bulge region using ages for ∼6000 high-luminosity (log(g)< 2.0), metal-rich ([Fe/H] ≥ -0.5) bulge stars observed by the Apache Point Observatory Galactic Evolution Experiment. Ages are derived using The Cannon label-transfer method, trained on a sample of nearby luminous giants with precise parallaxes for which we obtain ages using a Bayesian isochrone-matching technique. We find that the metal-rich bulge is predominantly composed of old stars (>8 Gyr). We find evidence that the planar region of the bulge (ZGC| 0.25 kpc) is enriched in metallicity, Z, at a faster rate (dZ/dt ∼ 0.0034 Gyr-1) than regions farther from the plane (dZ/dt ∼ 0.0013 Gyr-1 at | ZGC| > 1.00 kpc). We identify a nonnegligible fraction of younger stars (age ∼2-5 Gyr) at metallicities of +0.2 < [Fe/H] < +0.4. These stars are preferentially found in the plane (ZGC| ≤ 0.25 kpc) and at R cy ≈ 2-3 kpc, with kinematics that are more consistent with rotation than are the kinematics of older stars at the same metallicities. We do not measure a significant age difference between stars found inside and outside the bar. These findings show that the bulge experienced an initial starburst that was more intense close to the plane than far from the plane. Then, star formation continued at supersolar metallicities in a thin disk at 2 kpc ≲ R cy ≲ 3 kpc until ∼2 Gyr ago.

Original language	English (US)
Article number	109
Journal	Astrophysical Journal
Volume	901
Issue number	2
DOIs	https://doi.org/10.3847/1538-4357/abaeee
State	Published - Oct 1 2020
Externally published	Yes

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/1538-4357/abaeee

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Hasselquist, S., Zasowski, G., Feuillet, D. K., Schultheis, M., Nataf, D. M., Anguiano, B., Beaton, R. L., Beers, T. C., Cohen, R. E., Cunha, K., Fernández-Trincado, J. G., García-Hernández, D. A., Geisler, D., Holtzman, J. A., Johnson, J., Lane, R. R., Majewski, S. R., Bidin, C. M., Nitschelm, C., ... Sobeck, J. (2020). Exploring the stellar age distribution of the milky way bulge using APOGEE. Astrophysical Journal, 901(2), [109]. https://doi.org/10.3847/1538-4357/abaeee

Exploring the stellar age distribution of the milky way bulge using APOGEE. / Hasselquist, Sten; Zasowski, Gail; Feuillet, Diane K.; Schultheis, Mathias; Nataf, David M.; Anguiano, Borja; Beaton, Rachael L.; Beers, Timothy C.; Cohen, Roger E.; Cunha, Katia; Fernández-Trincado, José G.; García-Hernández, D. A.; Geisler, Doug; Holtzman, Jon A.; Johnson, Jennifer; Lane, Richard R.; Majewski, Steven R.; Bidin, Christian Moni; Nitschelm, Christian; Roman-Lopes, Alexandre; Schiavon, Ricardo; Smith, Verne V.; Sobeck, Jennifer.

In: Astrophysical Journal, Vol. 901, No. 2, 109, 01.10.2020.

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

Hasselquist, S, Zasowski, G, Feuillet, DK, Schultheis, M, Nataf, DM, Anguiano, B, Beaton, RL, Beers, TC, Cohen, RE, Cunha, K, Fernández-Trincado, JG, García-Hernández, DA, Geisler, D, Holtzman, JA, Johnson, J, Lane, RR, Majewski, SR, Bidin, CM, Nitschelm, C, Roman-Lopes, A, Schiavon, R, Smith, VV & Sobeck, J 2020, 'Exploring the stellar age distribution of the milky way bulge using APOGEE', Astrophysical Journal, vol. 901, no. 2, 109. https://doi.org/10.3847/1538-4357/abaeee

Hasselquist, Sten ; Zasowski, Gail ; Feuillet, Diane K. ; Schultheis, Mathias ; Nataf, David M. ; Anguiano, Borja ; Beaton, Rachael L. ; Beers, Timothy C. ; Cohen, Roger E. ; Cunha, Katia ; Fernández-Trincado, José G. ; García-Hernández, D. A. ; Geisler, Doug ; Holtzman, Jon A. ; Johnson, Jennifer ; Lane, Richard R. ; Majewski, Steven R. ; Bidin, Christian Moni ; Nitschelm, Christian ; Roman-Lopes, Alexandre ; Schiavon, Ricardo ; Smith, Verne V. ; Sobeck, Jennifer. / Exploring the stellar age distribution of the milky way bulge using APOGEE. In: Astrophysical Journal. 2020 ; Vol. 901, No. 2.

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title = "Exploring the stellar age distribution of the milky way bulge using APOGEE",

abstract = "We present stellar age distributions of the Milky Way bulge region using ages for ∼6000 high-luminosity (log(g)< 2.0), metal-rich ([Fe/H] ≥ -0.5) bulge stars observed by the Apache Point Observatory Galactic Evolution Experiment. Ages are derived using The Cannon label-transfer method, trained on a sample of nearby luminous giants with precise parallaxes for which we obtain ages using a Bayesian isochrone-matching technique. We find that the metal-rich bulge is predominantly composed of old stars (>8 Gyr). We find evidence that the planar region of the bulge (ZGC| 0.25 kpc) is enriched in metallicity, Z, at a faster rate (dZ/dt ∼ 0.0034 Gyr-1) than regions farther from the plane (dZ/dt ∼ 0.0013 Gyr-1 at | ZGC| > 1.00 kpc). We identify a nonnegligible fraction of younger stars (age ∼2-5 Gyr) at metallicities of +0.2 < [Fe/H] < +0.4. These stars are preferentially found in the plane (ZGC| ≤ 0.25 kpc) and at R cy ≈ 2-3 kpc, with kinematics that are more consistent with rotation than are the kinematics of older stars at the same metallicities. We do not measure a significant age difference between stars found inside and outside the bar. These findings show that the bulge experienced an initial starburst that was more intense close to the plane than far from the plane. Then, star formation continued at supersolar metallicities in a thin disk at 2 kpc ≲ R cy ≲ 3 kpc until ∼2 Gyr ago. ",

author = "Sten Hasselquist and Gail Zasowski and Feuillet, {Diane K.} and Mathias Schultheis and Nataf, {David M.} and Borja Anguiano and Beaton, {Rachael L.} and Beers, {Timothy C.} and Cohen, {Roger E.} and Katia Cunha and Fern{\'a}ndez-Trincado, {Jos{\'e} G.} and Garc{\'i}a-Hern{\'a}ndez, {D. A.} and Doug Geisler and Holtzman, {Jon A.} and Jennifer Johnson and Lane, {Richard R.} and Majewski, {Steven R.} and Bidin, {Christian Moni} and Christian Nitschelm and Alexandre Roman-Lopes and Ricardo Schiavon and Smith, {Verne V.} and Jennifer Sobeck",

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AU - Hasselquist, Sten

AU - Zasowski, Gail

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AU - Schultheis, Mathias

AU - Nataf, David M.

AU - Anguiano, Borja

AU - Beaton, Rachael L.

AU - Beers, Timothy C.

AU - Cohen, Roger E.

AU - Cunha, Katia

AU - Fernández-Trincado, José G.

AU - García-Hernández, D. A.

AU - Geisler, Doug

AU - Holtzman, Jon A.

AU - Johnson, Jennifer

AU - Lane, Richard R.

AU - Majewski, Steven R.

AU - Bidin, Christian Moni

AU - Nitschelm, Christian

AU - Roman-Lopes, Alexandre

AU - Schiavon, Ricardo

AU - Smith, Verne V.

AU - Sobeck, Jennifer

PY - 2020/10/1

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N2 - We present stellar age distributions of the Milky Way bulge region using ages for ∼6000 high-luminosity (log(g)< 2.0), metal-rich ([Fe/H] ≥ -0.5) bulge stars observed by the Apache Point Observatory Galactic Evolution Experiment. Ages are derived using The Cannon label-transfer method, trained on a sample of nearby luminous giants with precise parallaxes for which we obtain ages using a Bayesian isochrone-matching technique. We find that the metal-rich bulge is predominantly composed of old stars (>8 Gyr). We find evidence that the planar region of the bulge (ZGC| 0.25 kpc) is enriched in metallicity, Z, at a faster rate (dZ/dt ∼ 0.0034 Gyr-1) than regions farther from the plane (dZ/dt ∼ 0.0013 Gyr-1 at | ZGC| > 1.00 kpc). We identify a nonnegligible fraction of younger stars (age ∼2-5 Gyr) at metallicities of +0.2 < [Fe/H] < +0.4. These stars are preferentially found in the plane (ZGC| ≤ 0.25 kpc) and at R cy ≈ 2-3 kpc, with kinematics that are more consistent with rotation than are the kinematics of older stars at the same metallicities. We do not measure a significant age difference between stars found inside and outside the bar. These findings show that the bulge experienced an initial starburst that was more intense close to the plane than far from the plane. Then, star formation continued at supersolar metallicities in a thin disk at 2 kpc ≲ R cy ≲ 3 kpc until ∼2 Gyr ago.

AB - We present stellar age distributions of the Milky Way bulge region using ages for ∼6000 high-luminosity (log(g)< 2.0), metal-rich ([Fe/H] ≥ -0.5) bulge stars observed by the Apache Point Observatory Galactic Evolution Experiment. Ages are derived using The Cannon label-transfer method, trained on a sample of nearby luminous giants with precise parallaxes for which we obtain ages using a Bayesian isochrone-matching technique. We find that the metal-rich bulge is predominantly composed of old stars (>8 Gyr). We find evidence that the planar region of the bulge (ZGC| 0.25 kpc) is enriched in metallicity, Z, at a faster rate (dZ/dt ∼ 0.0034 Gyr-1) than regions farther from the plane (dZ/dt ∼ 0.0013 Gyr-1 at | ZGC| > 1.00 kpc). We identify a nonnegligible fraction of younger stars (age ∼2-5 Gyr) at metallicities of +0.2 < [Fe/H] < +0.4. These stars are preferentially found in the plane (ZGC| ≤ 0.25 kpc) and at R cy ≈ 2-3 kpc, with kinematics that are more consistent with rotation than are the kinematics of older stars at the same metallicities. We do not measure a significant age difference between stars found inside and outside the bar. These findings show that the bulge experienced an initial starburst that was more intense close to the plane than far from the plane. Then, star formation continued at supersolar metallicities in a thin disk at 2 kpc ≲ R cy ≲ 3 kpc until ∼2 Gyr ago.

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Exploring the stellar age distribution of the milky way bulge using APOGEE

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