Properties and Evolution of Dual and Offset AGN in the ASTRID Simulation at z 2

Abstract

We examine the dual (both BHs active) and offset (one BH active) AGN population (comprising 2000 pairs at 0.5\,kpc r<30\,kpc) at z=23 in the ASTRID simulation covering (360 cMpc)3. The dual (offset) AGN make up 3.0(2.2)\% of all AGN at z=2. The dual fraction is roughly constant while the offset fraction increases by a factor of ten from z=42. Compared with the full AGN population, duals are characterized by a low MBH/M* ratio, a high specific star-formation rate (sSFR) of 1\,Gyr-1, and a high Eddington ratio ( 0.05, double that of single AGN). The dual AGN are formed in major galaxy mergers (typically involving Mhalo<1013\,M), with BHs that have similar masses. At small separations (when their host galaxies are in the late phase of the merger) duals become 28 times brighter (albeit more obscured) than at larger separations. 80\% of these bright, close duals merge in the simulation within 500\,Myrs. Notably, the initially less-massive BH in duals frequently becomes the brighter AGN during the galaxy merger. In offset AGN, the active BH is typically 10 times more massive than its non-active counterpart and than most BHs in duals. Offsets are predominantly formed in minor galaxy mergers with the active BH residing in the center of massive halos ( M halo 1013-14\,M). In these deep potentials, gas stripping is common and the secondary quickly deactivates. The stripping also leads to inefficient orbital decay amongst offsets, which stall at r5\,kpc for a few hundred Myrs.