We study identical mass black hole binaries with spins perpendicular to the binary's orbital plane. These binaries have individual spins ranging from s/m2=−0.90 to 0.90, (s1=s2 in all cases) which is near the limit possible with standard Bowen-York puncture initial data. The extreme cases correspond to the largest initial spin simulations to date. Our results expand the parameter space covered by Rezzolla {\it et al.} and, when combining both data sets, we obtain estimations for the minimum and maximum values for the intrinsic angular momenta of the remnant of binary black hole mergers of J/M2=0.341±0.004 and 0.951±0.004 respectively. Note, however, that these values are reached through extrapolation to the singular cases ∣s1∣=∣s2∣=1 and thus remain as {\it estimates} until full-fledged numerical simulations provide confirmation.
@article{arxiv.0709.2160,
title = {High-spin binary black hole mergers},
author = {Pedro Marronetti and Wolfgang Tichy and Bernd Brügmann and Jose González and Ulrich Sperhake},
journal= {arXiv preprint arXiv:0709.2160},
year = {2008}
}
Comments
8 pages, 7 figures. Changed to match the version accepted for publication in PRD