Constraining the Low-Mass End of the Black Hole Mass Function and the Active Fraction of the Intermediate-mass Black Holes

Abstract

We investigate the black hole mass function (BHMF) and the Eddington ratio distribution function (ERDF), focusing on the intermediate-mass black holes (IMBHs) with masses down to M104 M. Based on the active galactic nuclei (AGNs) with a detected broad Hα emission line, we construct a sample of 14,242 AGNs at redshift z<0.35, including 243 IMBHs with M<106 M. By jointly modeling the BHMF and ERDF via the maximum posterior estimation, we find that the BHMF peaks at 106 M and exhibits a relatively constant value of 10-4\,Mpc-3\,dex-1 at the low-mass end. By comparing the derived BHMF of type 1 AGNs with the galaxy mass function based on the updated black hole mass--host galaxy stellar mass relation, we derive the active fraction. We also determine the active fraction for all AGNs using the upper and lower limit of the type 1 fraction. The active fraction decreases from 15%--40% for massive galaxies (M>1010 M) to lower than 2% for dwarf galaxies with M108 M. These results suggest that the black hole occupation fraction is expected to be 50% for low-mass galaxies (M108.5--109 M) if the duty cycle is similar IMBHs and supermassive black holes.

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