Mass and effective spin distributions of binary black hole events: Evidence for a population of hierarchical black hole mergers in active galactic nuclei disks
Abstract
The origins of the coalescing binary black holes (BBHs) detected by the advanced LIGO/Virgo are still in debate and clues may present in the mass and effective spin ( eff) distributions of these merger events. Here we analyze the GWTC-1 and GWTC-2.1 BBH events, and find evidence for a primary mass dependent eff distribution. Below (above) the mass of 50M, a nearly zero (relatively high) effective spin is typical. In the joint analysis of the primary mass and eff distributions, we identify a sub-population of BBHs characterized by both a bump-like primary mass distribution extending to 100M and a relatively high eff 0.3, consistent with the expectation for the ≥ 2g merger events in the disks of active galactic nuclei (AGNs). Our results suggest that the merger rate in AGN disks is around 1.7~ Gpc-3 yr-1.
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