Litcius/Paper detail

Challenging cosmic censorship in Einstein-Maxwell-scalar theory with numerically simulated gedanken experiments

F Corelli, Taishi Ikeda, Paolo Pani

2021IRIS Research product catalog (Sapienza University of Rome)23 citationsDOIOpen Access PDF

Abstract

We perform extensive nonlinear numerical simulations of the spherical collapse of (charged) wave packets onto a charged black hole within Einstein-Maxwell theory and in Einstein-Maxwell-scalar theory featuring nonminimal couplings and a spontaneous scalarization mechanism. We confirm that black holes in full-fledged Einstein-Maxwell theory cannot be overcharged past extremality and no naked singularities form, in agreement with the cosmic censorship conjecture. We show that naked singularities do not form even in Einstein-Maxwell-scalar theory, although it is possible to form scalarized black holes with charge above the Reissner-Nordström bound. We argue that charge and mass extraction due to superradiance at the fully nonlinear level is crucial to bound the charge-to-mass ratio of the final black hole below extremality. We also discuss some "descalarization"mechanisms for scalarized black holes induced either by superradiance or by absorption of an opposite-charged wave packet; in all cases the final state after descalarization is a subextremal Reissner-Nordström black hole.

Topics & Concepts

Cosmic censorship hypothesisPhysicsNaked singularityBlack hole (networking)SuperradianceCharge (physics)Scalar (mathematics)EinsteinGravitational singularityCharged black holeGravitationClassical mechanicsQuantum mechanicsSchwarzschild radiusGeometryRouting protocolLaserRouting (electronic design automation)Computer scienceMathematicsLink-state routing protocolComputer networkPulsars and Gravitational Waves ResearchCosmology and Gravitation TheoriesBlack Holes and Theoretical Physics