Dilaton gravity with a boundary: from unitarity to black hole evaporation

Dilaton gravity with a boundary: from unitarity to black hole evaporation

A bstract We point out that two-dimensional Russo-Susskind-Thorlacius (RST) model for evaporating black holes is locally equivalent — at the full quantum level — to flat-space Jackiw-Teitelboim (JT) gravity that was recently shown to be unitary. Globally, the two models differ by a reflective spacet...

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Veröffentlicht in:The journal of high energy physics 2020-06, Vol.2020 (6), p.1-31, Article 184
Hauptverfasser: Fitkevich, Maxim, Levkov, Dmitry, Zenkevich, Yegor
Format: Artikel
Sprache:eng
Schlagworte:
2D Gravity
Black Holes
Classical and Quantum Gravitation
Dilatons
Elementary Particles
Evaporation
Gravitation
High energy physics
Models of Quantum Gravity
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
Quantum Physics
Regular Article - Theoretical Physics
Relativity Theory
String Theory
Two dimensional models
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Zusammenfassung:A bstract We point out that two-dimensional Russo-Susskind-Thorlacius (RST) model for evaporating black holes is locally equivalent — at the full quantum level — to flat-space Jackiw-Teitelboim (JT) gravity that was recently shown to be unitary. Globally, the two models differ by a reflective spacetime boundary added in the RST model. Treating the boundary as a local and covariant deformation of quantum JT theory, we develop sensible semiclassical description of evaporating RST black holes. Nevertheless, our semiclassical solutions fail to resolve the information recovery problem, and they do not indicate formation of remnants. This means that either the standard semiclassical method incorrectly describes the evaporation process or the RST boundary makes the flat-space JT model fundamentally inconsistent.
ISSN:1029-8479
1029-8479
DOI:10.1007/JHEP06(2020)184