The coevolution of supermassive black holes and galaxies in luminous AGN over a wide range of redshift

Abstract

It is well known that supermassive black holes (SMBHs) and their host galaxies co-evolve. A manifestation of this co-evolution is the correlation that has been found between the SMBH mass, MBH, and the galaxy bulge or stellar mass, M*. The cosmic evolution of this relation, though, is still a matter of debate. In this work, we examine the MBH-M* relation, using 687 X-ray luminous (median log\,[LX,2-10keV(ergs-1)]=44.3), broad line AGN, at 0.2<z<4.0 (median z≈ 1.4) that lie in the XMM-XXL field. Their MBH and M* range from 7.5<log\,[MBH\,(M)]<9.5 and 10<log\,[M*(M)]<12, respectively. Most of the AGN live in star-forming galaxies and their Eddington ratios range from 0.01 to 1, with a median value of 0.06. Our results show that MBH and M* are correlated ( r=0.470.21, averaged over different redshift intervals). Our analysis also shows that the mean ratio of the MBH and M* does not evolve with redshift, at least up to z=2 and has a value of log(MBH/M*)=-2.44. The majority of the AGN (75\%) are in a SMBH mass growth dominant phase. In these systems, the MBH-M* correlation is weaker and their M* tends to be lower (for the same MBH) compared to systems that are in a galaxy mass growth phase. Our findings suggest that the growth of black hole mass occurs first, while the early stellar mass assembly may not be so efficient.