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The Observed Rate of Binary Black Hole Mergers can be Entirely Explained by Globular Clusters

Carl L. Rodriguez, Kyle Kremer, Sourav Chatterjee, Giacomo Fragione, Abraham Loeb, Frederic A. Rasio, Newlin C. Weatherford, Claire S. Ye

2021Research Notes of the AAS41 citationsDOIOpen Access PDF

Abstract

Abstract Since the first signal in 2015, the gravitational-wave detections of merging binary black holes (BBHs) by the LIGO and Virgo collaborations (LVC) have completely transformed our understanding of the lives and deaths of compact object binaries, and have motivated an enormous amount of theoretical work on the astrophysical origin of these objects. We show that the phenomenological fit to the redshift-dependent merger rate of BBHs from Abbott et al. is consistent with a purely dynamical origin for these objects, and that the current merger rate of BBHs from the LVC could be explained entirely with globular clusters alone. While this does not prove that globular clusters are the dominant formation channel, we emphasize that many formation scenarios could contribute a significant fraction of the current LVC rate, and that any analysis that assumes a single (or dominant) mechanism for producing BBH mergers is implicitly using a specious astrophysical prior.

Topics & Concepts

Globular clusterLIGOPhysicsBinary black holeAstrophysicsBinary numberCluster (spacecraft)Black hole (networking)Current (fluid)Object (grammar)Statistical physicsTerm (time)CosmologyPrimordial black holeMechanism (biology)Work (physics)Gravitational waveTheoretical physicsStar clusterAstronomyPulsars and Gravitational Waves ResearchGamma-ray bursts and supernovaeAstrophysical Phenomena and Observations
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