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Main Authors: Chaves-Velasquez, Leonardo, Gómez, Gilberto C., Pérez-Villegas, Ángeles
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.05684
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author Chaves-Velasquez, Leonardo
Gómez, Gilberto C.
Pérez-Villegas, Ángeles
author_facet Chaves-Velasquez, Leonardo
Gómez, Gilberto C.
Pérez-Villegas, Ángeles
contents The innermost region of the Milky Way harbors the central molecular zone (CMZ). This region contains a large amount of molecular gas but a poor star formation rate considering the densities achieved by the gas in this region. We used the arepo code to perform a hydrodynamic and star formation simulation of the Galaxy, where a Ferrers bar was adiabatically introduced. During the stage of bar imposition, the bar strength excites density waves close to the inner Lindblad resonance guiding material toward the inner Galaxy, driving the formation of a ring that we qualitatively associate with the CMZ. During the simulation, we identified that the ring passes three main phases, namely: formation, instability, and quasi-stationary stages. During the whole evolution, and particularly in the quasi-stationary stage, we observe that the ring is associated with the x2 family of periodic orbits. Additionally, we found that most of the star formation occurs during the ring formation stage, while it drastically decreases in the instability stage. Finally, we found that when the gas has settled in a stable x2 orbit, the star formation takes place mostly after the dense gas passes the apocenter, triggering the conveyor-belt mechanism described in previous studies.
format Preprint
id arxiv_https___arxiv_org_abs_2411_05684
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Gas Dynamics in the Central Molecular Zone and its connection with the Galactic Bar
Chaves-Velasquez, Leonardo
Gómez, Gilberto C.
Pérez-Villegas, Ángeles
Astrophysics of Galaxies
The innermost region of the Milky Way harbors the central molecular zone (CMZ). This region contains a large amount of molecular gas but a poor star formation rate considering the densities achieved by the gas in this region. We used the arepo code to perform a hydrodynamic and star formation simulation of the Galaxy, where a Ferrers bar was adiabatically introduced. During the stage of bar imposition, the bar strength excites density waves close to the inner Lindblad resonance guiding material toward the inner Galaxy, driving the formation of a ring that we qualitatively associate with the CMZ. During the simulation, we identified that the ring passes three main phases, namely: formation, instability, and quasi-stationary stages. During the whole evolution, and particularly in the quasi-stationary stage, we observe that the ring is associated with the x2 family of periodic orbits. Additionally, we found that most of the star formation occurs during the ring formation stage, while it drastically decreases in the instability stage. Finally, we found that when the gas has settled in a stable x2 orbit, the star formation takes place mostly after the dense gas passes the apocenter, triggering the conveyor-belt mechanism described in previous studies.
title Gas Dynamics in the Central Molecular Zone and its connection with the Galactic Bar
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2411.05684