Mass-dependent evolution of the relation between supermassive black hole mass and host spheroid mass since z ~ 1

Abstract

We investigate the evolution of supermassive black hole mass (MBH) and the host spheroid mass (Msph) in order to track the history of the MBH-Msph relationship. The typical mass increase of MBH is calculated by a continuity equation and accretion history, which is estimated from the active galactic nucleus (AGN) luminosity function. The increase in Msph is also calculated by using a continuity equation and a star formation model, which uses observational data for the formation rate and stellar mass function. We find that the black hole to spheroid mass ratio is expected to be substantially unchanged since z~1.2 for high mass objects (MBH>108.5MSUN and Msph>1011.3MSUN). In the same redshift range, the spheroid mass is found to increase more rapidly than the black hole mass if Msph>1011MSUN. The proposed mass-dependent model is consistent with the current available observational data in the MBH-Msph diagram.