Linking black-hole growth with host galaxies: The accretion-stellar mass relation and its cosmic evolution

Abstract

Previous studies suggest that the growth of supermassive black holes (SMBHs) may be fundamentally related to host-galaxy stellar mass (M). To investigate this SMBH growth-M relation in detail, we calculate long-term SMBH accretion rate as a function of M and redshift [ BHAR(M, z)] over ranges of (M/M)=9.5--12 and z=0.4--4. Our BHAR(M, z) is constrained by high-quality survey data (GOODS-South, GOODS-North, and COSMOS), and by the stellar mass function and the X-ray luminosity function. At a given M, BHAR is higher at high redshift. This redshift dependence is stronger in more massive systems (for (M/M)≈ 11.5, BHAR is three decades higher at z=4 than at z=0.5), possibly due to AGN feedback. Our results indicate that the ratio between BHAR and average star formation rate ( SFR) rises toward high M at a given redshift. This BHAR/ SFR dependence on M does not support the scenario that SMBH and galaxy growth are in lockstep. We calculate SMBH mass history [M BH(z)] based on our BHAR(M, z) and the M(z) from the literature, and find that the M BH-M relation has weak redshift evolution since z≈ 2. The M BH/M ratio is higher toward massive galaxies: it rises from ≈ 1/5000 at M 10.5 to ≈ 1/500 at M 11.2. Our predicted M BH/M ratio at high M is similar to that observed in local giant ellipticals, suggesting that SMBH growth from mergers is unlikely to dominate over growth from accretion.