English

The Critical Mass in Galaxy Evolution

Astrophysics of Galaxies 2026-05-01 v1 Cosmology and Nongalactic Astrophysics

Abstract

We investigate the physical origin of critical mass, a threshold where many galaxy properties and scaling relations undergo fundamental transitions, using the Horizon Run 5 simulation. Focusing on massive (Mtot1012MM_{\rm tot} \geq 10^{12}{\rm M_\odot}) central galaxies, we examine the mass-dependent turnover of the stellar-to-total mass ratio (STR) and the physical processes driving it. We decompose STR into the stellar-to-baryon mass ratio (M/MbarM_*/M_{\rm bar}) and baryon retention fraction (Mbar/MtotM_{\rm bar}/M_{\rm tot}) to examine galaxies' ability to retain baryons and convert them into stars. We find that STR evolution is dominated by variation in M/MbarM_*/M_{\rm bar}, which changes by over a factor of three, peaking within a narrow range of Mtot1012.412.7MM_{\rm tot} \sim 10^{12.4\text{--}12.7}{\rm M_\odot} independent of redshift, while Mbar/MtotM_{\rm bar}/M_{\rm tot} varies by at most 30%. A redshift-independent critical mass at Mtot1012.5MM_{\rm tot} \sim 10^{12.5}{\rm M_\odot} (M1010.7MM_* \sim 10^{10.7}{\rm M_\odot}) arises from the changing nature of gas accretion. At this scale, a dynamically stable hot gas halo develops that suppresses cool gas inflow, reducing in-situ star formation efficiency such that MtotM_{\rm tot} growth exceeds in-situ MM_{*} growth. Consequently, the hot gas reservoir grows while MM_{*} growth slows, producing upturns in Mgas/MtotM_{\rm gas}/M_{\rm tot} and Mbar/MtotM_{\rm bar}/M_{\rm tot} and a downturn in M/MbarM_{*}/M_{\rm bar} that ultimately drives the STR turnover. We also identify a secondary critical mass at Mtot1011MM_{\rm tot} \approx 10^{11}{\rm M_\odot} (or M1099.5MM_{*} \approx 10^{9\text{--}9.5}{\rm M_\odot}) where gas retention fraction peaks, above which increasing hot gas fraction gradually suppresses in-situ star formation efficiency.

Keywords

Cite

@article{arxiv.2604.27477,
  title  = {The Critical Mass in Galaxy Evolution},
  author = {Preetish K. Mishra and Changbom Park and Jaehyun Lee and Yohan Dubois and Christophe Pichon and Juhan Kim and Brad Gibson},
  journal= {arXiv preprint arXiv:2604.27477},
  year   = {2026}
}

Comments

14 pages, 9 figures. Comments welcome

R2 v1 2026-07-01T12:42:58.844Z