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Tidal acceleration of black holes and superradiance

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arxiv 1205.3184 v2 pith:KZ7PZ7UF submitted 2012-05-14 gr-qc astro-ph.HEhep-ph

Tidal acceleration of black holes and superradiance

classification gr-qc astro-ph.HEhep-ph
keywords tidalaccelerationblackdissipationeffectsgravitational-waveholessuperradiance
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Tidal effects have long ago locked the Moon in synchronous rotation with the Earth and progressively increase the Earth-Moon distance. This "tidal acceleration" hinges on dissipation. Binaries containing black holes may also be tidally accelerated, dissipation being caused by the event horizon - a flexible, viscous one-way membrane. In fact, this process is known for many years under a different guise: superradiance. In General Relativity, tidal acceleration is obscured by gravitational-wave emission. However, when coupling to light scalar degrees of freedom is allowed, an induced dipole moment produces a "polarization acceleration", which might be orders of magnitude stronger than tidal quadrupolar effects. Consequences for optical and gravitational-wave observations are intriguing and it is not impossible that imprints of such mechanism have already been observed.

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  1. Superradiance -- the 2020 Edition

    gr-qc 2015-01 unverdicted novelty 4.0

    Black-hole superradiance extracts energy via the ergoregion and can trigger instabilities with applications to dark matter, beyond-Standard-Model physics, and laboratory analogs.