The Stellar Mass - Black Hole Mass Relation at z2 Down to MBH107 M Determined by HETDEX

Abstract

We investigate the stellar mass - black hole mass (M*-MBH) relation with type 1 AGN down to MBH=107 M, corresponding to a -21 absolute magnitude in rest-frame ultraviolet (UV), at z = 2-2.5. Exploiting the deep and large-area spectroscopic survey of the Hobby-Eberly Telescope Dark Energy Experiment (HETDEX), we identify 66 type 1 AGN with MBH ranging from 107 to 1010 M that are measured with single-epoch virial method using C iv emission lines detected in the HETDEX spectra. M* of the host galaxies are estimated from optical to near-infrared photometric data taken with Spitzer, WISE, and ground-based 4-8m class telescopes by CIGALE SED fitting. We further assess the validity of SED fitting in two cases by host-nuclear decomposition performed through surface brightness profile fitting on spatially-resolved host galaxies with JWST/NIRCam CEERS data. We obtain the M*-MBH relation covering the unexplored low-mass ranges of MBH~~107-108~M, and conduct forward modelling to fully account for the selection biases and observational uncertainties. The intrinsic M*-MBH relation at z 2 has a moderate positive offset of 0.520.14~dex from the local relation, suggestive of more efficient black hole growth at higher redshift even in the low-mass regime of MBH~~107-108~M. Our M*-MBH relation is inconsistent with the MBH suppression at the low-M* regime predicted by recent hydrodynamic simulations at a 98\% confidence level, suggesting that feedback in the low-mass systems may be weaker than those produced in hydrodynamic simulations.