Litcius/Paper detail

Black hole collapse and bounce in effective loop quantum gravity

Jarod George Kelly, Robert Santacruz, Edward Wilson-Ewing

2020Classical and Quantum Gravity79 citationsDOIOpen Access PDF

Abstract

Abstract We derive effective equations with loop quantum gravity corrections for the Lemaître–Tolman–Bondi family of space-times, and use these to study quantum gravity effects in the Oppenheimer–Snyder collapse model. For this model, after the formation of a black hole with an apparent horizon, quantum gravity effects become important in the space-time region where the energy density and space-time curvature scalars become comparable to the Planck scale. These quantum gravity effects first stop the collapse of the dust matter field when its energy density reaches the Planck scale, and then cause the dust field to begin slowly expanding. Due to this continued expansion, the matter field will eventually extend beyond the apparent horizon, at which point the horizon disappears and there is no longer a black hole. There are no singularities anywhere in this space-time. In addition, in the limit that edge effects are neglected, we show that the dynamics for the interior of the star of uniform energy density follow the loop quantum cosmology effective Friedman equation for the spatially flat Friedman–Lemaître–Robertson–Walker space-time. Finally, we estimate the lifetime of the black hole, as measured by a distant observer, to be ∼( GM ) 2 / ℓ Pl .

Topics & Concepts

PhysicsLoop quantum gravityVirtual black holeQuantum gravityLoop quantum cosmologyBlack hole (networking)Semiclassical gravityHořava–Lifshitz gravityHorizonGravitational singularityGravitational collapseClassical mechanicsPlanck lengthQuantumQuantum electrodynamicsEvent horizonQuantum mechanicsField (mathematics)Spin foamPlanck energyQuantum fluctuationRotating black holeImmirzi parameterInflation (cosmology)Quantum geometryStrong gravityVacuum energyCurvatureGravitationInduced gravityExtremal black holeQuantum field theory in curved spacetimeBlack hole thermodynamicsPlanck massGroup field theoryQuantum field theoryNegative energyCosmologyGravitational fieldNoncommutative and Quantum Gravity TheoriesAdvanced Mathematical Theories and ApplicationsQuantum Electrodynamics and Casimir Effect