Accurate modeling of intermediate-mass-ratio inspirals: Exploring the form of the self-force in the intermediate-mass-ratio regime

Importance of including small body spin effects in the modelling of intermediate mass-ratio inspirals. II. Accurate parameter extraction of strong sources using higher-order spin effects

(2012) E. A. Huerta et al.   PHYSICAL REVIEW D

Complete nonspinning effective-one-body metric at linear order in the mass ratio

(2012) Enrico Barausse et al.   PHYSICAL REVIEW D

Evolution of inspiral orbits around a Schwarzschild black hole

(2012) Niels Warburton et al.   PHYSICAL REVIEW D

Tuning time-domain pseudospectral computations of the self-force on a charged scalar particle

(2011) Priscilla Canizares et al.   CLASSICAL AND QUANTUM GRAVITY

Intermediate-mass-ratio black hole binaries. II. Modeling trajectories and gravitational waveforms

(2011) Hiroyuki Nakano et al.   PHYSICAL REVIEW D

Low-energy general relativity with torsion: A systematic derivative expansion

(2011) Dmitri Diakonov et al.   PHYSICAL REVIEW D

Extreme mass-ratio inspirals in the effective-one-body approach: Quasicircular, equatorial orbits around a spinning black hole

(2011) Nicolás Yunes et al.   PHYSICAL REVIEW D

Importance of including small body spin effects in the modelling of extreme and intermediate mass-ratio inspirals

(2011) E. A. Huerta et al.   PHYSICAL REVIEW D

Post-Newtonian factorized multipolar waveforms for spinning, nonprecessing black-hole binaries

(2011) Yi Pan et al.   PHYSICAL REVIEW D

Collisions of unequal mass black holes and the point particle limit

(2011) Ulrich Sperhake et al.   PHYSICAL REVIEW D

Intermediate-mass-ratio inspirals in the Einstein Telescope. I. Signal-to-noise ratio calculations

(2011) E. A. Huerta et al.   PHYSICAL REVIEW D

Conservative self-force correction to the innermost stable circular orbit: Comparison with multiple post-Newtonian-based methods

(2011) Marc Favata   PHYSICAL REVIEW D

Self-force on a scalar charge in Kerr spacetime: Eccentric equatorial orbits

(2011) Niels Warburton et al.   PHYSICAL REVIEW D

Orbital Evolution of Extreme-Mass-Ratio Black-Hole Binaries with Numerical Relativity

(2011) Carlos O. Lousto et al.   PHYSICAL REVIEW LETTERS

Advanced LIGO: the next generation of gravitational wave detectors

(2010) Gregory M Harry et al.   CLASSICAL AND QUANTUM GRAVITY

Binary black hole merger in the extreme-mass-ratio limit: A multipolar analysis

(2010) Sebastiano Bernuzzi et al.   PHYSICAL REVIEW D

Intermediate-mass-ratio black hole binaries: Intertwining numerical and perturbative techniques

(2010) Carlos O. Lousto et al.   PHYSICAL REVIEW D

Self-force on a scalar charge in Kerr spacetime: Circular equatorial orbits

(2010) Niels Warburton et al.   PHYSICAL REVIEW D

Gravitational self-force in a Schwarzschild background and the effective one-body formalism

(2010) Thibault Damour   PHYSICAL REVIEW D

Gravitational self-force in extreme mass-ratio inspirals

(2009) Leor Barack   CLASSICAL AND QUANTUM GRAVITY

Influence of conservative corrections on parameter estimation for extreme-mass-ratio inspirals

(2009) E. A. Huerta et al.   PHYSICAL REVIEW D

Improved resummation of post-Newtonian multipolar waveforms from circularized compact binaries

(2009) Thibault Damour et al.   PHYSICAL REVIEW D

Gravitational Self-Force Correction to the Innermost Stable Circular Orbit of a Schwarzschild Black Hole

(2009) Leor Barack et al.   PHYSICAL REVIEW LETTERS

A rigorous derivation of gravitational self-force

(2008) Samuel E Gralla et al.   CLASSICAL AND QUANTUM GRAVITY

Two approaches for the gravitational self-force in black hole spacetime: Comparison of numerical results

(2008) Norichika Sago et al.   PHYSICAL REVIEW D