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Is GW231123 a hierarchical merger?

Published 16 Oct 2025 in astro-ph.HE | (2510.14363v1)

Abstract: The binary black hole merger GW231123 is both the most massive gravitational-wave event observed and has the highest component spins measured to date. The dimensionless spins of the more massive (primary) and less massive (secondary) black holes are measured to be $\chi_1 = 0.90{+0.10}_{-0.19}$ and $\chi_2 = 0.80{+0.20}_{-0.51}$ ($90\%$ credible intervals), respectively. Its large mass and extremal spins are challenging to explain through standard binary stellar physics, though a flurry of hypothetical scenarios have been proposed. Hierarchical assembly -- i.e., mergers of black holes that are themselves formed from previous generations of mergers -- is generally a promising way to explain massive and rapidly spinning black holes. Here, we investigate the possibility that both GW231123 was assembled hierarchically in a dense star cluster as the merger of two second-generation black holes. Taking the inferred spin values at face value, we find that it is possible, though unlikely ($p\lesssim 1\%$), that a compact binary with both component spins like GW231123 could form in a cluster from hierarchical assembly.

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