Gravitational recoil in nonspinning black hole binaries: the span of test-mass results
arXiv:1306.6299 · doi:10.1103/PhysRevD.88.121501
Abstract
We consider binary systems of coalescing, nonspinning, black holes of masses $m_{1}$ and $m_{2}$ and show that the gravitational recoil velocity for any mass ratio can be obtained accurately by extrapolating the waveform of the test-mass limit case. The waveform obtained in the limit $m_1/m_2\ll 1$ via a perturbative approach is extrapolated in $ν= m_{1} m_{2}/(m_{1}+m_{2})^{2} $ multipole by multipole using the corresponding, analytically known, leading-in-$ν$ behavior. The final kick velocity computed from this $ν$-flexed waveform is written as $v(ν)/c = 0.04457 ν^2\sqrt{1-4ν}\,(1-2.07106ν+ 3.93472ν^2 -4.78404ν^3+2.52040ν^{4})$ and is compatible with the outcome of numerical relativity simulations
5 pages, 3 figures. Matches published version