The Hierarchical Merger Scenario for GW231123
Abstract
GW231123 exhibits exceedingly massive components and high spins, which challenges the formation of first-generation (1G) black holes from stellar collapse and implies that this event might originate from hierarchical mergers. Here we show that the 2G+2G merger scenario for GW231123 is favored over a 2G+1G (or 3G+2G) merger, with odds ratios of >O(103). The primary (secondary) black hole is consistent with merging binary black holes with masses of 75+7-7\,M and 66+4-10\,M (64+8-10\,M and 59+7-9\,M; 90\% credible intervals), respectively. Our results reveal that the treatment of spin priors from the population level and waveform model choice are decisive in interpreting potential hierarchical gravitational-wave signals.
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