Minding the gap: GW190521 as a straddling binary
Abstract
Models for black hole (BH) formation from stellar evolution robustly predict the existence of a pair-instability supernova (PISN) mass gap in the range to solar masses. This theoretical prediction is supported by the binary black holes (BBHs) of LIGO/Virgo's first two observing runs, whose component masses are well-fit by a power law with a maximum mass cutoff at . Meanwhile, the BBH event GW190521 has a reported primary mass of , firmly above the inferred , and secondary mass . Rather than concluding that both components of GW190521 belong to a new population of mass-gap BHs, we explore the conservative scenario in which GW190521's secondary mass belongs to the previously-observed population of BHs. We replace the default priors on and , which assume that BH detector-frame masses are uniformly distributed, with this population-informed prior on , finding at 90\% credibility. Moreover, because the total mass of the system is better constrained than the individual masses, the population prior on automatically increases the inferred to sit \emph{above} the gap (39\% for , or 25\% probability for ). As long as the prior odds for a double-mass-gap BBH are smaller than , it is more likely that GW190521 straddles the pair-instability gap. We argue that GW190521 may be the first example of a straddling binary black hole, composed of a conventional stellar mass BH and a BH from the ``far side' of the PISN mass gap.
Cite
@article{arxiv.2009.05472,
title = {Minding the gap: GW190521 as a straddling binary},
author = {Maya Fishbach and Daniel E. Holz},
journal= {arXiv preprint arXiv:2009.05472},
year = {2020}
}
Comments
5 pages main text, 3 figures, 3 page appendix. Accepted for publication in ApJL