Litcius/Paper detail

Weak cosmic censorship conjecture in Kerr-Newman-(anti-)de Sitter black hole with charged scalar field

Bogeun Gwak

2021Journal of Cosmology and Astroparticle Physics27 citationsDOIOpen Access PDF

Abstract

Abstract We investigate the weak cosmic censorship conjecture in extremal and near-extremal Kerr-Newman-(anti-)de Sitter black holes by the scattering of a massive scalar field with an electric charge. Under this scattering, the scalar field fluxes change the black hole state, as determined by the mass, angular momentum, and electric charge. The black hole may exceed its extremal condition because of these changes. However, we find that the black hole cannot be overcharged or overspun by the scattering. In particular, although the fluxes are closely associated with the asymptotic boundary conditions along the flat, anti-de Sitter, and de Sitter spacetimes, the weak cosmic censorship conjecture is valid for any scalar field boundary conditions. Moreover, the validity of the weak cosmic censorship conjecture is thermodynamically preferred for this scattering.

Topics & Concepts

Cosmic censorship hypothesisPhysicsde Sitter–Schwarzschild metricBlack hole (networking)Scalar fieldExtremal black holeDe Sitter universeHawking radiationAnti-de Sitter spaceCharged black holeMathematical physicsScalar (mathematics)Energy conditionMicro black holeConjectureWhite holeQuantum electrodynamicsDe Sitter spaceRotating black holeTheoretical physicsPrimordial black holeNonsingular black hole modelsField (mathematics)CosmologyQuantum mechanicsClassical mechanicsCosmic background radiationBlack Holes and Theoretical PhysicsAstrophysical Phenomena and ObservationsCosmology and Gravitation Theories