English

Surface density effects in quenching: cause or effect?

Astrophysics of Galaxies 2016-12-14 v1

Abstract

There are very strong observed correlations between the specific star-formation rates (sSFR) of galaxies and their mean surface mass densities, {\Sigma}, as well as other aspects of their internal structure. These strong correlations have often been taken to indicate that the internal structure of a galaxy must play a major physical role, directly or indirectly, in the control of star-formation. In this paper we show by means of a very simple toy model that these correlations can arise naturally without any such physical role once the observed evolution of the size-mass relation for star-forming galaxies is taken into account. In particular, the model reproduces the sharp threshold in {\Sigma} between galaxies that are star-forming and those that are quenched, and the evolution of this threshold with redshift. Similarly, it produces iso-quenched-fraction contours in the fQ(m,Re){f_Q(m,R_e)} plane that are almost exactly parallel to lines of constant {\Sigma} for centrals and shallower for satellites. It does so without any dependence on quenching on size or {\Sigma}, and without invoking any differences between centrals and satellites, beyond the different mass-dependences of their quenching laws. The toy-model also reproduces several other observations, including the sSFR gradients within galaxies and the appearance of inside-out build-up of passive galaxies. Finally, it is shown that curvature in the Main Sequence sSFR-mass relation can produce curvature in the apparent B/T ratios with mass. Our analysis therefore suggests that many of the strong correlations that are observed between galaxy structure and sSFR may well be a consequence of things unrelated to quenching and should not be taken as evidence of the physical processes that drive quenching.

Keywords

Cite

@article{arxiv.1604.06459,
  title  = {Surface density effects in quenching: cause or effect?},
  author = {Simon J. Lilly and C. Marcella Carollo},
  journal= {arXiv preprint arXiv:1604.06459},
  year   = {2016}
}

Comments

17 pages of text plus 13 figures. Submitted to The Astrophysical Journal on April 18 2016

R2 v1 2026-06-22T13:38:06.563Z