How Low Can Q Go?

How Low Can Q Go?

Gravitational instability plays a substantial role in the evolution of galaxies. Various schemes to include it in galaxy evolution models exist, generally assuming that the Toomre Q parameter is self-regulated to Q _crit , the critical Q dividing stable from unstable conditions in a linear stability...

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Bibliographic Details
Main Author: John C. Forbes
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:The Astrophysical Journal
Subjects:
Disk galaxies
Galaxies
Galaxy disks
Gravitational instability
Online Access:https://doi.org/10.3847/1538-4357/adbf91
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Summary:Gravitational instability plays a substantial role in the evolution of galaxies. Various schemes to include it in galaxy evolution models exist, generally assuming that the Toomre Q parameter is self-regulated to Q _crit , the critical Q dividing stable from unstable conditions in a linear stability analysis. This assumption is in tension with observational estimates of Q that find values far below any plausible value of Q _crit . While the observations are subject to some uncertainty, this tension can more easily be relieved on the theoretical side by relaxing the common assumption that Q ≥ Q _crit . Based on observations of both z  ∼ 2 disks and local face-on galaxies, we estimate the effect of gravitational instability necessary to balance out every other physical process that affects Q . In particular, we find that the disk’s response to low Q values can be described by simple functions that depend only on Q . These response functions allow galaxies to maintain Q values below Q _crit in equilibrium over a wide range of parameters. Extremely low values of Q are predicted when the gas surface density is ≳10 ^3 M _⊙ pc ^−2 , the rotation curve provides minimal shear, the orbital time becomes long, and/or when the gas is much more unstable than the stellar component. We suggest that these response functions should be used in place of the Q ≥ Q _crit ansatz.
ISSN:1538-4357

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