Abstract
IT HAS recently been recognized1 that significant numbers of medium-mass black holes (of order 10 solar masses) should form in globular clusters during the early stages of their evolution. Here we explore the dynamical and observational consequences of the presence of such a primordial black-hole population in a globular cluster. The holes initially segregate to the cluster cores, where they form binary and multiple black-hole systems. The subsequent dynamical evolution of the black-hole population ejects most of the holes on a relatively short timescale: a typical cluster will retain between zero and four black holes in its core, and possibly a few black holes in its halo. The presence of binary, triple and quadruple black-hole systems in cluster cores will disrupt main-sequence and giant stellar binaries; this may account for the observed2 anomalies in the distribution of binaries in globular clusters. Furthermore, tidal interactions between a multiple black-hole system and a red-giant star can remove much of the red giant's stellar envelope, which may explain the puzzling absence3 of larger red giants in the cores of some very dense clusters.
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Sigurdsson, S., Hernquist, L. Primordial black holes in globular clusters. Nature 364, 423–425 (1993). https://doi.org/10.1038/364423a0
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DOI: https://doi.org/10.1038/364423a0
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