Gravitational waves from plunges into Gargantua

We analytically compute time domain gravitational waveforms produced in the final stages of extreme mass ratio inspirals of non-spinning compact objects into supermassive nearly extremal Kerr black holes. Conformal symmetry relates all corotating equatorial orbits in the geodesic approximation to ci...

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Bibliographic Details
Published inClassical and quantum gravity Vol. 35; no. 10; pp. 104002 - 104066
Main Authors Compère, Geoffrey, Fransen, Kwinten, Hertog, Thomas, Long, Jiang
Format Journal Article
LanguageEnglish
Published IOP Publishing 24.05.2018
Subjects
black holes
conformal symmetry
extreme mass ratio inspirals
gravitational waves
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Summary:We analytically compute time domain gravitational waveforms produced in the final stages of extreme mass ratio inspirals of non-spinning compact objects into supermassive nearly extremal Kerr black holes. Conformal symmetry relates all corotating equatorial orbits in the geodesic approximation to circular orbits through complex conformal transformations. We use this to obtain the time domain Teukolsky perturbations for generic equatorial corotating plunges in closed form. The resulting gravitational waveforms consist of an intermediate polynomial ringdown phase in which the decay rate depends on the impact parameters, followed by an exponential quasi-normal mode decay. The waveform amplitude exhibits critical behavior when the orbital angular momentum tends to a minimal value determined by the innermost stable circular orbit. We show that either near-critical or large angular momentum leads to a significant extension of the LISA observable volume of gravitational wave sources of this kind.
Bibliography:CQG-104556.R1
ISSN:0264-9381
1361-6382
DOI:10.1088/1361-6382/aab99e