On the mass-function of GWTC-2 binary black hole systems and their progenitors

Abstract

The distribution of LIGO black hole binaries (BBH) shows an intermediate-mass range consistent with the Salpeter Initial Mass Function (IMF) in black hole formation by core-collapse supernovae, subject to preserving binary association. They are effectively parameterized by mean mass μ with Pearson correlation coefficient r = 0.93\,\,0.06 of secondary to primary masses with mean mass-ratio q 0.67, q=M2/M1, consistent with the paucity of intermediate-mass X-ray binaries. The mass-function of LIGO BBHs is well-approximated by a broken power-law with a tail μ 31.4M in the mean binary mass μ=(M1+M2)/2. Its power-law index αB,true=4.77 0.73 inferred from the tail of the observed mass-function is found to approach the upper bound 2αS=4.7 of the uncorrelated binary initial mass-function, defined by the Salpeter index αS=2.35 of the Initial Mass Function of stars. The observed low scatter in BBH mass ratio q evidences equalizing mass-transfer in binary evolution prior to BBH formation. At the progenitor redshift z, furthermore, the power-law index satisfies αB>αB in a flat background cosmology. The bound αB,true 2αS hereby precludes early formation at arbitrarily high redshift z 1, that may be made more precise and robust with extended BBH surveys from upcoming LIGO O4-5 observations.

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