Galaxy growth from redshift 5 to 0 at fixed comoving number density

TL;DR

This study uses cosmological simulations to analyze galaxy evolution from redshift 5 to 0 at fixed comoving number density, revealing different growth regimes and the impact of AGN feedback on galaxy assembly.

Contribution

It systematically compares galaxy evolution at fixed number density with individual galaxy histories, highlighting differences and the effects of AGN feedback.

Findings

Three growth regimes for massive galaxies: accretion, star formation, and mergers.

AGN feedback causes inside-out galaxy growth and limits central stellar mass buildup.

Without AGN feedback, galaxies grow mainly through star formation, dominating until z=0.

Abstract

Studying the average properties of galaxies at a fixed comoving number density over a wide redshift range has become a popular observational method, because it may trace the evolution of galaxies statistically. We test this method by comparing the evolution of galaxies at fixed number density and by following individual galaxies through cosmic time (z=0-5) in cosmological, hydrodynamical simulations from OWLS. Comparing progenitors, descendants, and galaxies selected at fixed number density at each redshift, we find differences of up to a factor of three for galaxy and interstellar medium (ISM) masses. The difference is somewhat larger for black hole masses. The scatter in ISM mass increases significantly towards low redshift with all selection techniques. We use the fixed number density technique to study the assembly of dark matter, gas, stars, and black holes and the evolution in accretion and star formation rates. We find three different regimes for massive galaxies, consistent with observations: at high redshift the gas accretion rate dominates, at intermediate redshifts the star formation rate is the highest, and at low redshift galaxies grow mostly through mergers. Quiescent galaxies have much lower ISM masses (by definition) and much higher black hole masses, but the stellar and halo masses are fairly similar. Without active galactic nucleus (AGN) feedback, massive galaxies are dominated by star formation down to z=0 and most of their stellar mass growth occurs in the centre. With AGN feedback, stellar mass is only added to the outskirts of galaxies by mergers and they grow inside-out.