Standard choices of quasicircular orbit parameters for black-hole binary evolutions result in eccentric inspiral. We introduce a conceptually simple method, which is to integrate the post-Newtonian equations of motion through hundreds of orbits, and read off the values of the momenta at the separation at which we wish to start a fully general relativistic numerical evolution. For the particular case of nonspinning equal-mass inspiral with an initial coordinate separation of D=11M we show that this approach reduces the eccentricity by at least a factor of 5 to e<0.002 as compared to using standard quasicircular initial parameters
International audienceGravitational waves radiated during binary black hole coalescence are a perfec...
We investigate the (conservative) dynamics of binary black holes using the Hamiltonian formulation o...
We present two methods for integrating forced geodesic equations in the Kerr spacetime, which can ac...
Standard choices of quasicircular orbit parameters for black-hole binary evolutions result in eccent...
We present a new iterative method to reduce eccentricity in black-hole-binary simulations. Given a g...
Binary black hole simulations starting from quasi-circular (i.e., zero radial velocity) initial data...
Building initial conditions for generic binary black-hole evolutions without initial spurious eccent...
We study the transition from inspiral to plunge in general relativity by computing gravitational wav...
We compare different methods of computing the orbital eccentricity of quasicircular binary black-hol...
We present a prescription for computing gravitational waveforms for the inspiral, merger and ringdow...
We describe and study an instantaneous definition of eccentricity to be applied at the initial momen...
We model the inspiral of a compact stellar-mass object into a massive nonrotating black hole includi...
We present an improved version of the approximate scheme for generating inspirals of test-bodies int...
We derive fourth post-Newtonian (4PN) contributions to the Keplerian-type parametric solution associ...
We derive fourth post-Newtonian (4PN) contributions to the Keplerian type parametric solution associ...
International audienceGravitational waves radiated during binary black hole coalescence are a perfec...
We investigate the (conservative) dynamics of binary black holes using the Hamiltonian formulation o...
We present two methods for integrating forced geodesic equations in the Kerr spacetime, which can ac...
Standard choices of quasicircular orbit parameters for black-hole binary evolutions result in eccent...
We present a new iterative method to reduce eccentricity in black-hole-binary simulations. Given a g...
Binary black hole simulations starting from quasi-circular (i.e., zero radial velocity) initial data...
Building initial conditions for generic binary black-hole evolutions without initial spurious eccent...
We study the transition from inspiral to plunge in general relativity by computing gravitational wav...
We compare different methods of computing the orbital eccentricity of quasicircular binary black-hol...
We present a prescription for computing gravitational waveforms for the inspiral, merger and ringdow...
We describe and study an instantaneous definition of eccentricity to be applied at the initial momen...
We model the inspiral of a compact stellar-mass object into a massive nonrotating black hole includi...
We present an improved version of the approximate scheme for generating inspirals of test-bodies int...
We derive fourth post-Newtonian (4PN) contributions to the Keplerian-type parametric solution associ...
We derive fourth post-Newtonian (4PN) contributions to the Keplerian type parametric solution associ...
International audienceGravitational waves radiated during binary black hole coalescence are a perfec...
We investigate the (conservative) dynamics of binary black holes using the Hamiltonian formulation o...
We present two methods for integrating forced geodesic equations in the Kerr spacetime, which can ac...