English

How Low Can Q Go?

Astrophysics of Galaxies 2023-02-16 v1

Abstract

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 QQ parameter is self-regulated to QcritQ_\mathrm{crit}, the critical QQ dividing stable from unstable conditions in a linear stability analysis. This assumption is in tension with observational estimates of QQ that find values far below any plausible value of QcritQ_\mathrm{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 QQcritQ\ge Q_\mathrm{crit}. Based on observations of both z2z\sim 2 disks and local face-on galaxies, we estimate the effect of gravitational instability necessary to balance out every other physical process that affects QQ. In particular we find that the disk's response to low QQ values can be described by simple functions that depend only on QQ. These response functions allow galaxies to maintain QQ values below QcritQ_\mathrm{crit} in equilibrium over a wide range of parameters. Extremely low values of QQ are predicted when the gas surface density is greater than 103\sim 10^3 M_\odot pc2^{-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 QQcritQ\ge Q_\mathrm{crit} ansatz.

Keywords

Cite

@article{arxiv.2302.07823,
  title  = {How Low Can Q Go?},
  author = {John C. Forbes},
  journal= {arXiv preprint arXiv:2302.07823},
  year   = {2023}
}

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Submitted to AAS Journals

R2 v1 2026-06-28T08:40:59.941Z