Formation mechanisms of massive binary black holes and intermediate-mass black holes

Determine the astrophysical mechanisms that produce massive binary black holes (MBBHs) and intermediate-mass black holes (IMBHs), and identify their dominant formation channels.

Background

Gravitational-wave observations include events with black hole masses that challenge the predicted pair-instability mass gap, making the origin of very massive black holes uncertain.

This work couples the GAMESH galaxy formation model with cluster population synthesis codes (RAPSTER and FASTCLUSTER) to study hierarchical mergers in globular clusters, showing that such mergers can form very massive black holes. However, different synthesis codes yield divergent predictions for masses and rates, underscoring the difficulty of pinpointing the dominant channels.

Resolving which environments and processes—such as isolated binaries, dense star clusters, or active galactic nucleus disks—primarily produce MBBHs and IMBHs is central to interpreting current and future gravitational-wave populations.