Litcius/Paper detail

Islands in asymptotically flat 2D gravity

Thomas Hartman, Edgar Shaghoulian, Andrew Strominger

2020Journal of High Energy Physics143 citationsDOIOpen Access PDF

Abstract

A bstract The large- N limit of asymptotically flat two-dimensional dilaton gravity coupled to N free matter fields provides a useful toy model for semiclassical black holes and the information paradox. Analyses of the asymptotic information flux as given by the entanglement entropy show that it follows the Hawking curve, indicating that information is destroyed in these models. Recently, motivated by developments in AdS/CFT, a semiclassical island rule for entropy has been proposed. We define and compute the island rule entropy for black hole formation and evaporation in the large- N RST model of dilaton gravity and show that, in contrast, it follows the unitary Page curve. The relation of these two observations, and interesting properties of the dilaton gravity island rule, are discussed.

Topics & Concepts

PhysicsSemiclassical physicsDilatonSemiclassical gravityBlack hole information paradoxEntropy (arrow of time)Black hole thermodynamicsUnitary stateMathematical physicsBlack hole (networking)Hawking radiationf(R) gravityQuantum entanglementQuantum gravityTheoretical physicsClassical mechanicsHawkingString theoryBlack hole complementarityExtremal black holeEntropic gravityConditional entropyQuantum mechanicsBlack Holes and Theoretical PhysicsNoncommutative and Quantum Gravity TheoriesCosmology and Gravitation Theories