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Main Authors: G, Anagha A, Banerjee, Arunima
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.03229
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author G, Anagha A
Banerjee, Arunima
author_facet G, Anagha A
Banerjee, Arunima
contents About two-thirds of the galactic disks exhibit a central ellipsoidal stellar component called the bar, with or without a gaseous counterpart. However, there are a few dwarf galaxies with purely gaseous bars: NGC3741, NGC2915 and DDO168. This is a puzzle as gas is a collisional medium, and a gaseous bar is expected to be ripped off by shock waves. We study the formation of gaseous bars in these galaxies by constructing dynamical models constrained by stellar photometry and HI observations already available. We first analytically study the dynamical stability of the galactic disks against global $m=2$ perturbations. Our results indicate that the stellar and the gas disks are moderately unstable against these bar modes. Using N-body + hydrodynamical simulations employing $RAMSES$, we next find that a purely gaseous bar is formed in an oblate dark matter halo of vertical-to-planar axes ratio $c/a = 0.6 - 0.8$, with a relatively high-spin parameter $Λ= 0.04 - 0.07$, which survives for more than ten dynamical times. Further, the low values of our calculated Mach numbers $M=2-6$ of the gaseous medium comply with the survival of the gaseous bars, unaffected by shock waves. Interestingly, our simulations show the formation of a tiny stellar bar in each case. However, the temporal evolution of the change in angular momentum $L_z$ of the different disk components indicates the exchange of $L_z$ between the gas disk and the dark matter halo only; the $L_z$ of the stellar disk remained unchanged, indicating a weak stellar bar.
format Preprint
id arxiv_https___arxiv_org_abs_2503_03229
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Are purely gaseous bars in dwarf-irregulars a myth?
G, Anagha A
Banerjee, Arunima
Astrophysics of Galaxies
About two-thirds of the galactic disks exhibit a central ellipsoidal stellar component called the bar, with or without a gaseous counterpart. However, there are a few dwarf galaxies with purely gaseous bars: NGC3741, NGC2915 and DDO168. This is a puzzle as gas is a collisional medium, and a gaseous bar is expected to be ripped off by shock waves. We study the formation of gaseous bars in these galaxies by constructing dynamical models constrained by stellar photometry and HI observations already available. We first analytically study the dynamical stability of the galactic disks against global $m=2$ perturbations. Our results indicate that the stellar and the gas disks are moderately unstable against these bar modes. Using N-body + hydrodynamical simulations employing $RAMSES$, we next find that a purely gaseous bar is formed in an oblate dark matter halo of vertical-to-planar axes ratio $c/a = 0.6 - 0.8$, with a relatively high-spin parameter $Λ= 0.04 - 0.07$, which survives for more than ten dynamical times. Further, the low values of our calculated Mach numbers $M=2-6$ of the gaseous medium comply with the survival of the gaseous bars, unaffected by shock waves. Interestingly, our simulations show the formation of a tiny stellar bar in each case. However, the temporal evolution of the change in angular momentum $L_z$ of the different disk components indicates the exchange of $L_z$ between the gas disk and the dark matter halo only; the $L_z$ of the stellar disk remained unchanged, indicating a weak stellar bar.
title Are purely gaseous bars in dwarf-irregulars a myth?
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2503.03229