Thermodynamics to infer the astrophysics of binary black hole mergers

Abstract

We introduce the Merger Entropy Index (IBBH), a new parameter to measure the efficiency of entropy transfer for any generic binary black hole merger in General Relativity. We find that IBBH is bounded between an asymptotic maximum and minimum. For the observed population of mergers detected by LIGO and Virgo, we find that IBBH is 30\% of its theoretical maximum. By imposing the thermodynamical consistency between the pre- and post-merger states through IBBH, we showcase BRAHMA -- a novel framework to infer the properties and astrophysical implications of gravitational-wave detections. For GW190521 -- the heaviest confirmed binary black hole merger observed so far -- our framework rules out high mass-ratio, negative effective inspiral spin, and electromagnetic counterpart claims. Furthermore, our analysis provides an independent confirmation that GW190521 belongs to a separate population.

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