General relativity predicts the gravitational radiation signatures of mergers of compact binaries, such as coalescing binary black hole systems. Derivations of waveform predictions for such systems are required for optimal scientific analysis of observational gravitational wave data, and have so far been achieved primarily with the aid of the post-Newtonian (PN) approximation. The quality of this treatment is unclear, however, for the important late inspiral portion. We derive late-inspiral waveforms via a complementary approach, direct numerical simulation of Einstein's equations, which has recently matured sufficiently for such applications. We compare waveform phasing from simulations covering the last approximately 14 cycles of gravitat...
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of n...
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of n...
We present a prescription for computing gravitational waveforms for the inspiral, merger and ringdow...
General relativity predicts the gravitational radiation signatures of mergers of compact binaries, s...
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of n...
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of n...
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of n...
Numerical simulations of 15 orbits of an equal-mass binary black-hole system are presented. Gravitat...
Binary black-hole systems are expected to be important sources of gravitational waves for upcoming g...
Binary black-hole systems are expected to be important sources of gravitational waves for upcoming g...
Coalescing binary black hole mergers are expected to be the strongest gravitational wave sources for...
We analyze numerical-relativity (NR) waveforms that cover nine orbits (18 gravitational-wave cycles)...
We analyze numerical-relativity (NR) waveforms that cover nine orbits (18 gravitational-wave cycles)...
We analyze numerical-relativity (NR) waveforms that cover nine orbits (18 gravitational-wave cycles)...
Coalescing binary black hole mergers are expected to be the strongest gravitational wave sources for...
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of n...
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of n...
We present a prescription for computing gravitational waveforms for the inspiral, merger and ringdow...
General relativity predicts the gravitational radiation signatures of mergers of compact binaries, s...
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of n...
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of n...
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of n...
Numerical simulations of 15 orbits of an equal-mass binary black-hole system are presented. Gravitat...
Binary black-hole systems are expected to be important sources of gravitational waves for upcoming g...
Binary black-hole systems are expected to be important sources of gravitational waves for upcoming g...
Coalescing binary black hole mergers are expected to be the strongest gravitational wave sources for...
We analyze numerical-relativity (NR) waveforms that cover nine orbits (18 gravitational-wave cycles)...
We analyze numerical-relativity (NR) waveforms that cover nine orbits (18 gravitational-wave cycles)...
We analyze numerical-relativity (NR) waveforms that cover nine orbits (18 gravitational-wave cycles)...
Coalescing binary black hole mergers are expected to be the strongest gravitational wave sources for...
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of n...
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of n...
We present a prescription for computing gravitational waveforms for the inspiral, merger and ringdow...