An effective field theory of quantum mechanical black hole horizons
Walter D. Goldberger, Ira Z. Rothstein
Abstract
A bstract We develop an effective theory which describes black holes with quantum mechanical horizons that is valid at scales long compared to the Schwarzschild radius but short compared to the lifetime of the black hole. Our formalism allows one to calculate the quantum mechanical effects in scattering processes involving black hole asymptotic states. We point out that the EFT Wightman functions which describe Hawking radiation in the Unruh vacuum are not Planck suppressed and are actually enhanced relative to those in the Boulware vacuum, for which such radiation is absent. We elaborate on this point showing how the non-Planck suppressed effects of Hawking radiation cancel in classical observables.
Topics & Concepts
PhysicsHawking radiationMicro black holeUnruh effectBlack hole (networking)Black hole information paradoxQuantum mechanicsQuantum electrodynamicsQuantum gravityFuzzballEffective field theorySchwarzschild radiusBlack hole thermodynamicsVirtual black holeQuantumExtremal black holeQuantum field theoryTheoretical physicsBlack hole complementarityWhite holePlanck lengthCharged black holeSchwarzschild metricQuantum field theory in curved spacetimeClassical mechanicsScatteringVacuum energyRotating black holePlanck massFormalism (music)Mathematical physicsThermal quantum field theorySonic black holeQuantum Electrodynamics and Casimir EffectAstrophysical Phenomena and ObservationsBlack Holes and Theoretical Physics