Formation and growth of intermediate-mass black holes in dense star clusters: Lessons from N-body and MOCCA Monte Carlo Simulations
Abstract
Dense star clusters are promising nurseries for the formation and growth of intermediate-mass black holes (IMBHs; 102-105\,M), with increasing observational evidence pointing to their presence in massive star clusters and stripped dwarf-galaxy nuclei. During the early evolution of compact clusters, massive stars can rapidly segregate to the center, where frequent collisions may trigger the runaway growth of a very massive star (VMS). This object can subsequently collapse to form an IMBH or merge with a stellar-mass black hole. We carried out direct N-body and Monte Carlo simulations of star clusters with initial core densities between 106 to 4× 108\,M\,pc-3 and total masses of 5.9× 105 and 1.3× 106\,M. These models show that IMBHs of 103-104\,M can form within ≤ 5 Myr through the runaway collision channel. At later times, the IMBHs continue to grow through mergers with black holes, stars, and compact remnants, providing predictions testable with future gravitational-wave and transient surveys.
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