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Surface gravity and the information loss problem

Robert B. Mann, Sebastian Murk, Daniel R. Terno

2022Physical review. D/Physical review. D.14 citationsDOIOpen Access PDF

Abstract

The information loss paradox is widely regarded as one of the biggest open problems in theoretical physics. Several classical and quantum features must be present to enable its formulation. First, an event horizon is needed to justify the objective status of tracing out degrees of freedom inside the black hole. Second, evaporation must be completed (or nearly completed) in finite time according to a distant observer, and thus the formation of the black hole should also occur in finite time. In spherical symmetry these requirements constrain the possible metrics strongly enough to obtain a unique black hole formation scenario and match their parameters with the semiclassical results. However, the two principal generalizations of surface gravity, the quantity that determines the Hawking temperature, do not agree with each other on the dynamic background. Neither can correspond to the emission of nearly-thermal radiation. We infer from this that the information loss problem cannot be consistently posed in its standard form.

Topics & Concepts

Semiclassical physicsEvent horizonBlack hole (networking)Hawking radiationBlack hole information paradoxTheoretical physicsPhysicsQuantum gravityObserver (physics)Information lossHorizonClassical mechanicsEvent (particle physics)QuantumComputer scienceMicro black holeQuantum mechanicsComputer networkRouting (electronic design automation)AstronomyRouting protocolArtificial intelligenceLink-state routing protocolBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesQuantum Electrodynamics and Casimir Effect
Surface gravity and the information loss problem | Litcius