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Binary evolution, gravitational-wave mergers and explosive transients in multiple-populations gas-enriched globular-clusters

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arxiv 2203.01330 v4 pith:FHWMHP4U submitted 2022-03-02 astro-ph.HE

Binary evolution, gravitational-wave mergers and explosive transients in multiple-populations gas-enriched globular-clusters

classification astro-ph.HE
keywords binariesevolutionconditionsmergerpopulationstarsambientassumptions
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Most globular clusters (GCs) show evidence for multiple stellar populations, suggesting the occurrence of several distinct star-formation episodes. The large fraction of second population (2P) stars observed requires a very large 2P gaseous mass to have accumulated in the cluster core to form these stars. Hence the first population of stars (1P) in the cluster core has had to become embedded in 2P gas, just prior to the formation of later populations. Here we explore the evolution of binaries in ambient 2P gaseous media of multiple-population GCs. We mostly focus on black hole binaries and follow their evolution as they evolve from wide binaries towards short periods through interaction with ambient gas, followed by gravitational-wave (GW) dominated inspiral and merger. We show this novel GW-merger channel could provide a major contribution to the production of GW-sources. We consider various assumptions and initial conditions and calculate the resulting gas-mediated change in the population of binaries and the expected merger rates due to gas-catalyzed GW-inspirals. For plausible conditions and assumptions, we find an expected GW merger rate observable by aLIGO of the order of up to a few tens of $\rm{Gpc^{-3} yr^{-1}}$, and an overall range for our various models of $0.08-25.51 \ \rm{Gpc^{-3} yr^{-1}}$. Finally, our results suggest that the conditions and binary properties in the early stage of GCs could be critically affected by gas-interactions and may require a major revision in the current modeling of the evolution of GCs.

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