High-accuracy mass, spin, and recoil predictions of generic black-hole merger remnants

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Colleges, School and Institutes


We present accurate fits for the remnant properties of generically precessing binary black holes, trained on large banks of numerical-relativity simulations. We use Gaussian process regression to interpolate the remnant mass, spin, and recoil velocity in the seven-dimensional parameter space of precessing black-hole binaries with mass ratios q ≤2 , and spin magnitudes χ1 , χ2≤0.8 . For precessing systems, our errors in estimating the remnant mass, spin magnitude, and kick magnitude are lower than those of existing fitting formulae by at least an order of magnitude (improvement is also reported in the extrapolated region at high mass ratios and spins). In addition, we also model the remnant spin and kick directions. Being trained directly on precessing simulations, our fits are free from ambiguities regarding the initial frequency at which precessing quantities are defined. We also construct a model for remnant properties of aligned-spin systems with mass ratios q ≤8 , and spin magnitudes χ1 , χ2≤0.8 . As a byproduct, we also provide error estimates for all fitted quantities, which can be consistently incorporated into current and future gravitational-wave parameter-estimation analyses. Our model(s) are made publicly available through a fast and easy-to-use Python module called surfinBH....


Original languageEnglish
Article number011101
Number of pages7
JournalPhysical Review Letters
Issue number1
Publication statusPublished - 10 Jan 2019

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