Supermassive black hole formation via collisions in black hole clusters

TL;DR

This paper investigates how dense black hole clusters, influenced by external potentials like gas inflows, can merge to form supermassive black hole seeds, potentially explaining their early presence in the universe.

Contribution

It presents the first systematic study of black hole cluster evolution considering external potentials, highlighting a feasible pathway for seed black hole formation.

Findings

Efficiency of seed formation can reach 5-8% in realistic systems.

Clusters can produce seed black holes of at least 10^3 solar masses.

External potentials significantly influence black hole merger dynamics.

Abstract

More than 300 supermassive black holes have been detected at redshifts larger than 6, and they are abundant in the centers of local galaxies. Their formation mechanisms, however, are still rather unconstrained. A possible origin of these supermassive black holes could be through mergers in dense black hole clusters, forming as a result of mass segregation within nuclear star clusters in the center of galaxies. In this study, we present the first systematic investigation of the evolution of such black hole clusters where the effect of an external potential is taken into account. Such a potential could be the result of gas inflows into the central region, for example as a result of galaxy mergers. We show here that the efficiency for the formation of a massive central object is mostly regulated by the ratio of cluster velocity dispersion divided by the speed of light, potentially reaching efficiencies of 0.05-0.08 in realistic systems. Our results show that this scenario is potentially feasible and may provide seeds black hole of at least 10^3 solar masses. We conclude that the formation of seed black holes via this channel should be taken into account in statistical assessments of the black hole population.