Supermassive black hole fueling in IllustrisTNG: Impact of environment

Abstract

We study the association between active galactic nuclei (AGN) and environment at scales of 0.01-1\ h-1Mpc in the IllustrisTNG (TNG100) simulated universe. We identify supermassive black hole (BH) pairs and multiples within scales of 0.01, 0.1, & 1 h-1Mpc and examine their AGN activity in relation to randomly-selected pairs and multiples. The number density of BHs in TNG100 is n=0.06\,h3Mpc-3 at z1.5 (n=0.02\,h3 Mpc-3 at z=3). About 10% and 1% of them live in pairs and multiples, respectively, within 0.1 h-1Mpc scales. We find that BH systems have enhanced likelihood (up to factors of 3-6) of containing high Eddington ratio (η0.7) AGN compared to random pairs and multiples. Conversely, the likelihood of an AGN to live in 0.1h-1Mpc scale systems is also higher (by factors 4 for η0.7) compared to random pairs and multiples. We also estimate that 10% of ultra-hard X-ray selected AGN in TNG100 have detectable 2-10 keV AGN companions on 0.1\ h-1Mpc scales, in agreement with observations. On larger spatial scales ( 1 h-1Mpc), however, no significant enhancement is associated with BH pairs and multiples, even at high Eddington ratios. The enhancement of AGN activity in rich, small-scale (0.1 h-1Mpc) environments is therefore likely to be driven by galaxy interactions and mergers. Nonetheless, the overall percentage of AGN that live in 0.1 h-1Mpc scale multiples is still subdominant (at most 40% for the highest Eddington ratio AGN). Furthermore, the enhancement in Eddington ratios of BH systems(as well as merging BHs) is only up to factors of 2-3. Thus, our results support the existence of a merger-AGN connection, but they also suggest that mergers and interactions play a relatively minor role in fueling the AGN population as a whole.