The assembly of intermediate black holes with complementary approaches: Dragon II and BPop

Abstract

Intermediate-mass black holes (IMBHs) occupy the 102 - 105\,M range, but their existence remains poorly constrained. Only a few candidates have been suggested in dwarf galaxies, globular clusters, and LIGO-Virgo-Kagra detections. To investigate their formation and demographics, we adopt two complementary approaches. We first analyze the dragonii direct N-body simulations, which follow clusters with up to 106 stars, capture IMBHs growth. We then employ the semi-analytic code bpop, calibrated on dragonii, to explore a broad range of cluster and cosmological conditions. Our models reproduce merger rates consistent with GWTC-3, with 30 - 60\% of BBHs forming dynamically, mainly in globular and nuclear clusters. About 2-3\% of mergers involve an IMBH, producing intermediate-mass ratio inspirals. The IMBH mass distribution spans 2.5 × 102 - 4 × 104\,M , with rare growth beyond 106\,M. Formation efficiency rises with initial binary fraction but declines in metal-rich environments. IMBHs thus emerge as a distinct population bridging stellar and supermassive black holes.

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