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Main Authors: McClure, Rachel Lee, Géron, Tobias, D'Onghia, Elena, Beane, Angus, Thusoo, Aaryan, Daniel, Kathryne J., Filion, Carrie, Lucchini, Scott
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.09150
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author McClure, Rachel Lee
Géron, Tobias
D'Onghia, Elena
Beane, Angus
Thusoo, Aaryan
Daniel, Kathryne J.
Filion, Carrie
Lucchini, Scott
author_facet McClure, Rachel Lee
Géron, Tobias
D'Onghia, Elena
Beane, Angus
Thusoo, Aaryan
Daniel, Kathryne J.
Filion, Carrie
Lucchini, Scott
contents Classical bulges and stellar bars are common features in disk galaxies and serve as key tracers of galactic evolution. Angular momentum exchange at bar resonances drives secular morphological changes throughout the disk, including bar slowing and lengthening, and affects the structure of accompanying bulges. In this study, using a suite of N-body simulations, we quantify the secular reconfiguration of classical bulges through resonant trapping by evolving stellar bars. We use orbital frequency analysis to identify bar-resonant populations and find that up to 50% of the initial bulge stars become trapped in 2:1 resonant orbits and adopt disk-like kinematics. This transformation renders much of the classical bulge observationally indistinguishable from the disk. We compare these results with a sample of 210 MaNGA disk galaxies, finding that slow bars--indicative of older systems--are preferentially associated with weaker bulges. These results suggest that long-lived bars can significantly reshape classical bulges, potentially explaining their scarcity in the local universe and the low classical bulge fraction found in the Milky Way.
format Preprint
id arxiv_https___arxiv_org_abs_2506_09150
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Secular Attrition of Classical Bulges by Stellar Bars
McClure, Rachel Lee
Géron, Tobias
D'Onghia, Elena
Beane, Angus
Thusoo, Aaryan
Daniel, Kathryne J.
Filion, Carrie
Lucchini, Scott
Astrophysics of Galaxies
Classical bulges and stellar bars are common features in disk galaxies and serve as key tracers of galactic evolution. Angular momentum exchange at bar resonances drives secular morphological changes throughout the disk, including bar slowing and lengthening, and affects the structure of accompanying bulges. In this study, using a suite of N-body simulations, we quantify the secular reconfiguration of classical bulges through resonant trapping by evolving stellar bars. We use orbital frequency analysis to identify bar-resonant populations and find that up to 50% of the initial bulge stars become trapped in 2:1 resonant orbits and adopt disk-like kinematics. This transformation renders much of the classical bulge observationally indistinguishable from the disk. We compare these results with a sample of 210 MaNGA disk galaxies, finding that slow bars--indicative of older systems--are preferentially associated with weaker bulges. These results suggest that long-lived bars can significantly reshape classical bulges, potentially explaining their scarcity in the local universe and the low classical bulge fraction found in the Milky Way.
title Secular Attrition of Classical Bulges by Stellar Bars
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2506.09150