Eigenstate Thermalization and Disorder Averaging in Gravity
Jason Pollack, Moshe Rozali, James Sully, David Wakeham
Abstract
Naively, resolving the black hole information paradox requires microscopic details about quantum gravity. Recent work suggests that, instead, a unitary Page curve can be recovered by adding disorder-averaged replica instantons to the path integral, though their origin is unclear. In this Letter, we show how replica instantons and disorder averaging emerge naturally in an effective theory built from typical microscopic states. We relate replica instantons to a moment expansion of simple operators, and find a microcanonical description in terms of wormholes and Euclidean black holes.
Topics & Concepts
InstantonReplicaPhysicsReplica trickQuantum gravityWormholeUnitary stateTheoretical physicsEuclidean geometrySimple (philosophy)QuantumQuantum mechanicsClassical mechanicsSpin glassGeometryMathematicsVisual artsPhilosophyPolitical scienceArtLawEpistemologyBlack Holes and Theoretical PhysicsNoncommutative and Quantum Gravity TheoriesCosmology and Gravitation Theories