Why the Milky Way's bulge is not only a bar formed from a cold thin disk

P. Di Matteo; A. Gómez; M. Haywood; F. Combes; M. D. Lehnert; M. Ness; O. N. Snaith; D. Katz; B. Semelin

doi:10.1051/0004-6361/201424457

Why the Milky Way's bulge is not only a bar formed from a cold thin disk

P. Di Matteo, A. Gómez, M. Haywood, F. Combes, M. D. Lehnert, M. Ness, O. N. Snaith, D. Katz, B. Semelin

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69 Citations (Scopus)

Abstract

By analyzing an N-body simulation of a bulge formed simply via a bar instability mechanism operating on a kinematically cold stellar disk, and by comparing the results of this analysis with the structural and kinematic properties of the main stellar populations of the Milky Way bulge, we conclude that the bulge of our Galaxy is not a pure stellar bar formed from a pre-existing thin stellar disk, as some studies have recently suggested. On the basis of several arguments emphasized in this paper, we propose that the bulge population that, in the Milky Way, is observed to not be part of the peanut structure corresponds to the old Galactic thick disk, thus implying that the Milky Way is a pure thin+thick disk galaxy, with only a possible limited contribution by a classical bulge.

Original language	English
Article number	A1
Journal	Astronomy and Astrophysics
Volume	577
DOIs	https://doi.org/10.1051/0004-6361/201424457
Publication status	Published - 1 May 2015
Externally published	Yes

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title = "Why the Milky Way's bulge is not only a bar formed from a cold thin disk",

abstract = "By analyzing an N-body simulation of a bulge formed simply via a bar instability mechanism operating on a kinematically cold stellar disk, and by comparing the results of this analysis with the structural and kinematic properties of the main stellar populations of the Milky Way bulge, we conclude that the bulge of our Galaxy is not a pure stellar bar formed from a pre-existing thin stellar disk, as some studies have recently suggested. On the basis of several arguments emphasized in this paper, we propose that the bulge population that, in the Milky Way, is observed to not be part of the peanut structure corresponds to the old Galactic thick disk, thus implying that the Milky Way is a pure thin+thick disk galaxy, with only a possible limited contribution by a classical bulge.",

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AU - Di Matteo, P.

AU - Gómez, A.

AU - Haywood, M.

AU - Combes, F.

AU - Lehnert, M. D.

AU - Ness, M.

AU - Snaith, O. N.

AU - Katz, D.

AU - Semelin, B.

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N2 - By analyzing an N-body simulation of a bulge formed simply via a bar instability mechanism operating on a kinematically cold stellar disk, and by comparing the results of this analysis with the structural and kinematic properties of the main stellar populations of the Milky Way bulge, we conclude that the bulge of our Galaxy is not a pure stellar bar formed from a pre-existing thin stellar disk, as some studies have recently suggested. On the basis of several arguments emphasized in this paper, we propose that the bulge population that, in the Milky Way, is observed to not be part of the peanut structure corresponds to the old Galactic thick disk, thus implying that the Milky Way is a pure thin+thick disk galaxy, with only a possible limited contribution by a classical bulge.

AB - By analyzing an N-body simulation of a bulge formed simply via a bar instability mechanism operating on a kinematically cold stellar disk, and by comparing the results of this analysis with the structural and kinematic properties of the main stellar populations of the Milky Way bulge, we conclude that the bulge of our Galaxy is not a pure stellar bar formed from a pre-existing thin stellar disk, as some studies have recently suggested. On the basis of several arguments emphasized in this paper, we propose that the bulge population that, in the Milky Way, is observed to not be part of the peanut structure corresponds to the old Galactic thick disk, thus implying that the Milky Way is a pure thin+thick disk galaxy, with only a possible limited contribution by a classical bulge.

KW - Galaxy: abundances

KW - Galaxy: bulge

KW - Galaxy: evolution

KW - Galaxy: kinematics and dynamics

KW - methods: numerical

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Why the Milky Way's bulge is not only a bar formed from a cold thin disk

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