The (black hole)-bulge mass scaling relation at low masses

TL;DR

This paper investigates the low-mass end of the black hole-bulge mass relation, revealing a steeper, non-linear correlation for Sersic galaxies and discussing implications for black hole formation and growth theories.

Contribution

It demonstrates that low-mass AGN follow a steeper, quadratic-like M_bh-M_sph,* relation, refining understanding of black hole scaling relations at low masses.

Findings

Low-mass AGN follow a steeper M_bh-M_sph,* relation.

The relation for Sersic galaxies is roughly quadratic.

Implications for black hole formation and intermediate mass black holes are discussed.

Abstract

Several recent papers have reported on the occurrence of active galactic nuclei (AGN) containing under-massive black holes relative to a linear scaling relation between black hole mass (M_bh) and host spheroid stellar mass (M_sph,*). Dramatic revisions to the M_bh-M_sph,* and M_bh-L_sph relations, based on samples containing predominantly inactive galaxies, have however recently identified a new steeper relation at M_bh < (2-10)x10^8 M_Sun, roughly corresponding to M_sph,* < (0.3-1)x10^{11} M_Sun. We show that this steeper, quadratic-like M_bh-M_sph,* relation defined by the Sersic galaxies, i.e. galaxies without partially depleted cores, roughly tracks the apparent offset of the AGN having 10^5 < M_bh/M_Sun < 0.5x10^8. That is, these AGN are not randomly offset with low black hole masses, but also follow a steeper (non-linear) relation. As noted by Busch et al., confirmation or rejection of a possible AGN offset from the steeper M_bh-M_sph,* relation defined by the Sersic galaxies will benefit from improved stellar mass-to-light ratios for the spheroids hosting these AGN. Several implications for formation theories are noted. Furthermore, reasons for possible under- and over-massive black holes, the potential existence of intermediate mass black holes (<10^5 M_Sun), and the new steep (black hole)--(nuclear star cluster) relation, M_bh ~ (M_nc)^{2.7+/-0.7}, are also discussed.