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Gravitational Waveforms for Compact Binaries from Second-Order Self-Force Theory

Barry Wardell, Adam Pound, Niels Warburton, Jeremy Miller, Leanne Durkan, Alexandre Le Tiec

2023Physical Review Letters139 citationsDOIOpen Access PDF

Abstract

We produce gravitational waveforms for nonspinning compact binaries undergoing a quasicircular inspiral. Our approach is based on a two-timescale expansion of the Einstein equations in second-order self-force theory, which allows first-principles waveform production in tens of milliseconds. Although the approach is designed for extreme mass ratios, our waveforms agree remarkably well with those from full numerical relativity, even for comparable-mass systems. Our results will be invaluable in accurately modeling extreme-mass-ratio inspirals for the LISA mission and intermediate-mass-ratio systems currently being observed by the LIGO-Virgo-KAGRA Collaboration.

Topics & Concepts

LIGOPhysicsWaveformMass ratioGeneral relativityGravitationGravitational waveNumerical relativityTheory of relativityBinary numberAstrophysicsClassical mechanicsQuantum mechanicsVoltageMathematicsArithmeticPulsars and Gravitational Waves ResearchGamma-ray bursts and supernovaeBlack Holes and Theoretical Physics
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