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Dynamics of binary black holes in young star clusters: the impact of cluster mass and long-term evolution

Stefano Torniamenti, Sara Rastello, Michela Mapelli, Ugo N Di Carlo, Alessandro Ballone, Mario Pasquato

2022Monthly Notices of the Royal Astronomical Society32 citationsDOI

Abstract

ABSTRACT Dynamical interactions in dense star clusters are considered one of the most effective formation channels of binary black holes (BBHs). Here, we present direct N-body simulations of two different star cluster families: low-mass (∼500–800 M⊙) and relatively high-mass star clusters (≥5000 M⊙). We show that the formation channels of BBHs in low- and high-mass star clusters are extremely different and lead to two completely distinct populations of BBH mergers. Low-mass clusters host mainly low-mass BBHs born from binary evolution, while BBHs in high-mass clusters are relatively massive (chirp mass up to ∼100 M⊙) and driven by dynamical exchanges. Tidal disruption dramatically quenches the formation and dynamical evolution of BBHs in low-mass clusters on a very short time-scale (≲100 Myr), while BBHs in high-mass clusters undergo effective dynamical hardening until the end of our simulations (1.5 Gyr). In high-mass clusters, we find that 8 per cent of BBHs have primary mass in the pair-instability mass gap at metallicity Z = 0.002, all of them born via stellar collisions, while only one BBH with primary mass in the mass gap forms in low-mass clusters. These differences are crucial for the interpretation of the formation channels of gravitational-wave sources.

Topics & Concepts

PhysicsAstrophysicsCluster (spacecraft)Term (time)Star clusterBinary numberDynamics (music)Star (game theory)Mass segregationBinary starBinary black holeAstronomyStarsGravitational waveMathematicsComputer scienceProgramming languageAcousticsArithmeticPulsars and Gravitational Waves ResearchAstrophysical Phenomena and ObservationsGamma-ray bursts and supernovae
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