Litcius/Paper detail

Island, Page curve, and superradiance of rotating BTZ black holes

Minghui Yu, Cheng-Yuan Lu, Xian-Hui Ge, Sang-Jin Sin

2022Physical review. D/Physical review. D.47 citationsDOIOpen Access PDF

Abstract

We study the Page curve and the information paradox for the Ba\~nados-Teiteboim-Zanelli black hole coupled to two thermal baths by applying the island paradigm. We prove that as the island locates outside the event horizon, the entanglement entropy of Hawking radiation for finite temperature black holes obeys the Page curve. However, for extremal rotating black holes, the Page time and the scrambling time become divergent. To avoid the ill-defined nature of the Page time, we consider the contribution of superradiance, which is a process that can extract rotational energy from black holes. The superradiance continues in a period much shorter than the Page time when the central charge $c$ is not too large. In this process, the Page time, the scrambling time and the black hole thermal entropy all decrease. Whenever the superradiance finishes, the black hole turns out to be a neutral black hole and the Hawking radiation dominates. The Page curve can then be well reproduced.

Topics & Concepts

SuperradiancePhysicsScramblingBlack hole (networking)Event horizonQuantum entanglementBlack hole information paradoxHawking radiationEntropy (arrow of time)Quantum mechanicsMicro black holeQuantumEvent (particle physics)LaserComputer networkLinguisticsComputer scienceRouting protocolPhilosophyLink-state routing protocolRouting (electronic design automation)Black Holes and Theoretical PhysicsCosmology and Gravitation TheoriesQuantum Electrodynamics and Casimir Effect