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Divergences in gravitational-wave emission and absorption from extreme mass ratio binaries

Enrico Barausse, Emanuele Berti, Vítor Cardoso, Scott A. Hughes, Gaurav Khanna

2021Physical review. D/Physical review. D.10 citationsDOIOpen Access PDF

Abstract

A powerful technique to calculate gravitational radiation from binary systems involves a perturbative expansion: if the masses of the two bodies are very different, the ``small'' body is treated as a point particle of mass ${m}_{p}$ moving in the gravitational field generated by the large mass $M$, and one keeps only linear terms in the small mass ratio ${m}_{p}/M$. This technique usually yields finite answers, which are often in good agreement with fully nonlinear numerical relativity results, even when extrapolated to nearly comparable mass ratios. Here we study two situations in which the point-particle approximation yields a divergent result: the instantaneous flux emitted by a small body as it orbits the light ring of a black hole, and the total energy absorbed by the horizon when a small body plunges into a black hole. By integrating the Teukolsky (or Zerilli/Regge-Wheeler) equations in the frequency and time domains we show that both of these quantities diverge. We find that these divergences are an artifact of the point-particle idealization, and are able to interpret and regularize this behavior by introducing a finite size for the point particle. These divergences do not play a role in black-hole imaging, e.g., by the Event Horizon Telescope.

Topics & Concepts

PhysicsBlack hole (networking)Event horizonMass ratioPoint particleHorizonNumerical relativityGravitational waveGeneral relativityGravitational redshiftParticle (ecology)GravitationQuantum electrodynamicsAstrophysicsClassical mechanicsEvent (particle physics)Computer scienceRouting (electronic design automation)GeologyLink-state routing protocolAstronomyRouting protocolOceanographyComputer networkPulsars and Gravitational Waves ResearchAstrophysical Phenomena and ObservationsAstrophysics and Cosmic Phenomena
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