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Merger rate of black hole binaries from globular clusters: theoretical error bars and comparison to gravitational wave data from GWTC-2

Antonini, Fabio ORCID: https://orcid.org/0000-0003-3138-6199 and Gieles, Mark 2020. Merger rate of black hole binaries from globular clusters: theoretical error bars and comparison to gravitational wave data from GWTC-2. Physical Review D 102 (12) , 123016. 10.1103/PhysRevD.102.123016

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Abstract

Black hole binaries formed dynamically in globular clusters are believed to be one of the main sources of gravitational waves in the Universe. Here, we use our new population synthesis code, cbhbd, to determine the redshift evolution of the merger rate density and masses of black hole binaries formed in globular clusters. We simulate ∼2  million models to explore the parameter space that is relevant to real globular clusters and overall mass scales. We show that when uncertainties on the initial cluster mass function and their initial half-mass density are properly taken into account, they become the two dominant factors in setting the theoretical error bars on merger rates. Uncertainties in other model parameters (e.g., natal kicks, black hole masses, and metallicity) have virtually no effect on the local merger rate density, although they affect the masses of the merging black holes. Modeling the merger rate density as a function of redshift as R(z)=R0(1+z)κ at z<2, and marginalizing over uncertainties, we find: R0=7.2+21.5−5.5  Gpc−3 yr−1 and κ=1.6+0.4−0.6 (90% credibility). The rate parameters for binaries that merge inside the clusters are R0,in=1.6+1.9−1.0  Gpc−3 yr−1 and κin=2.3+1.3−1.0; ∼20% of these form as the result of a gravitational-wave capture, implying that eccentric mergers from globular clusters contribute ≲0.4  Gpc−3 yr−1 to the local rate. A comparison to the merger rate reported by Laser Interferometer Gravitational Wave Observatory-Virgo shows that a scenario in which most of the detected black hole mergers are formed in globular clusters is consistent with current constraints and requires initial cluster half-mass densities ≳104  M⊙ pc−3. Interestingly, these models also reproduce the inferred black hole mass function in the range 13–30  M⊙. However, all models underpredict the data outside this range, suggesting that other mechanisms might be responsible for the formation of these sources.

Item Type: Article
Date Type: Publication
Status: Published
Schools: Physics and Astronomy
Publisher: American Physical Society
ISSN: 2470-0010
Date of First Compliant Deposit: 11 November 2020
Date of Acceptance: 6 November 2020
Last Modified: 05 May 2023 14:32
URI: https://orca.cardiff.ac.uk/id/eprint/136276

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