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Equivalence principle and generalized accelerating black holes from binary systems

Marco Astorino

2024Physical review. D/Physical review. D.13 citationsDOI

Abstract

The Einstein equivalence principle in general relativity allows us to interpret accelerating black holes as a black hole immersed into the gravitational field of a larger companion black hole. Indeed it is demonstrated that C-metrics can be obtained as a limit of a binary system where one of the black holes grows indefinitely large, becoming a Rindler horizon. When the bigger black hole, before the limiting process, is of Schwarzschild type we recover usual accelerating black holes belonging to the Plebanski-Demianski class, thus type D. Whether the greater black hole carries some extra features, such as electric charges or rotations, we get generalized accelerating black holes which belong to a more general class, the type I. In that case the background has a richer structure, reminiscent of the physical features of the inflated companion, with respect to the standard Rindler spacetime. This insight allow us to build a general type D metric, describing an accelerating Kerr-NUT black black hole. It has well defined limits to all the type-D black holes of general relativity, including the elusive (type-D) accelerating Taub-NUT spacetime. Extension to the presence of the cosmological constant is also provided.

Topics & Concepts

PhysicsWhite holeBlack hole (networking)Binary black holeGeneral relativityNonsingular black hole modelsCharged black holeEvent horizonTheoretical physicsExtremal black holeHawking radiationSchwarzschild radiusTests of general relativityClassical mechanicsGravitationNumerical relativitySpacetimeHorizonQuantum mechanicsGravitational collapseGravitational waveAstronomyRouting (electronic design automation)Routing protocolComputer scienceComputer networkLink-state routing protocolBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesAdvanced Differential Geometry Research
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