English

The universal acceleration scale from stellar feedback

Astrophysics of Galaxies 2020-08-19 v3

Abstract

It has been established for decades that rotation curves deviate from the Newtonian gravity expectation given baryons alone below a characteristic acceleration scale g108cms2g_{\dagger}\sim 10^{-8}\,\rm{cm\,s^{-2}}, a scale promoted to a new fundamental constant in MOND. In recent years, theoretical and observational studies have shown that the star formation efficiency (SFE) of dense gas scales with surface density, SFE Σ/Σcrit\sim \Sigma/\Sigma_{\rm crit} with Σcritp˙/m/(πG)1000Mpc2\Sigma_{\rm crit} \sim \langle\dot{p}/m_{\ast}\rangle/(\pi\,G)\sim 1000\,\rm{M_{\odot}\,pc^{-2}} (where p˙/m\langle \dot{p}/m_{\ast}\rangle is the momentum flux output by stellar feedback per unit stellar mass in a young stellar population). We argue that the SFE, more generally, should scale with the local gravitational acceleration, i.e. that SFE gtotgcrit(GMtot/R2)/p˙/m\sim g_{\rm tot}g_\mathrm{crit} \equiv (G\,M_{\rm tot}/R^{2}) / \langle\dot{p}/m_{\ast}\rangle, where MtotM_{\rm tot} is the total gravitating mass and gcrit=p˙/m=πGΣcrit108cms2gg_\mathrm{crit}=\langle\dot{p}/m_{\ast}\rangle = \pi\,G\,\Sigma_{\rm crit} \approx 10^{-8}\,\rm{cm\,s^{-2}} \approx g_{\dagger}. Hence the observed gg_\dagger may correspond to the characteristic acceleration scale above which stellar feedback cannot prevent efficient star formation, and baryons will eventually come to dominate. We further show how this may give rise to the observed acceleration scaling gobs(gbaryong)1/2g_{\rm obs}\sim(g_{\rm baryon}\,g_{\dagger})^{1/2} (where gbaryong_{\rm baryon} is the acceleration due to baryons alone) and flat rotation curves. The derived characteristic acceleration gg_{\dagger} can be expressed in terms of fundamental constants (gravitational constant, proton mass, and Thomson cross section): g0.1Gmp/σTg_{\dagger}\sim 0.1\,G\,m_{p}/\sigma_{\rm T}.

Cite

@article{arxiv.1910.06345,
  title  = {The universal acceleration scale from stellar feedback},
  author = {Michael Y. Grudić and Michael Boylan-Kolchin and Claude-André Faucher-Giguère and Philip F. Hopkins},
  journal= {arXiv preprint arXiv:1910.06345},
  year   = {2020}
}

Comments

corrected MNRAS version

R2 v1 2026-06-23T11:43:23.344Z