The Evolution of M*/MBH Between z=2 and z=0

Abstract

We propose a novel method to estimate M*/MBH, the ratio of stellar mass (M*) to black hole mass (MBH), at various redshifts using two recent observational results: the correlation between the bolometric luminosity of active galactic nuclei (AGN) and the star formation rate (SFR) in their host galaxies, and the correlation between SFR and M* in star-forming (SF) galaxies. Our analysis is based on MBH and Lbol measurements in two large samples of type-I AGN at z~1 and z~2, and the measurements of M*/MBH in 0.05<z<0.2 red galaxies. We find that M*/MBH depends on MBH at all redshifts. At z~2, M*/MBH 280 and ~40 for MBH=108 and MBH=109 Msol, respectively. M*/MBH grows by a factor of ~4-8 from z~2 to z~0 with extreme cases that are as large as 10-20. The evolution is steeper than reported in other studies, probably because we treat only AGN in SF hosts. We caution that estimates of M*/MBH evolution which ignore the dependence of this ratio on MBH can lead to erroneous conclusions.