Elsevier

Nuclear Physics B

Volume 464, Issues 1–2, 1 April 1996, Pages 213-247
Nuclear Physics B

Back-reaction and complementarity in 1 + 1 dilaton gravity

https://doi.org/10.1016/0550-3213(96)00047-8Get rights and content

Abstract

We study radiation from black holes in the effective theory produced by integrating gravity and the dilaton out of 1 + 1 dilaton gravity. The semiclassical wavefunctions for the dressed particles show that the self-interactions produce an unusual renormalization of the frequencies of outgoing states. Modes propagating in the dynamical background of an incoming quantum state are seen to acquire large scattering phases that nevertheless conspire, in the absence of self-interactions, to preserve the thermality of the Hawking radiation. However, the in-out scattering matrix does not commute with the self-interactions and this could lead to observable corrections to the final state. Finally, our calculations explicitly display the limited validity of the semiclassical theory of Hawking radiation and provide support for a formulation of black hole complementarity.

References (23)

  • S.W. Hawking

    Particle creation by black holes

    Commun. Math. Phys.

    (1975)
  • S.W. Hawking

    Breakdown of predictability in gravitational collapse

    Phys. Rev. D

    (1976)
  • G.'t Hooft

    The black hole interpretation of string theory

    Nucl. Phys. B

    (1990)
  • L. Susskind et al.

    The stretched horizon and black hole complementarity

    Phys. Rev. D

    (1993)
  • K. Schoutens et al.

    Quantum black hole evaporation

    Phys. Rev. D

    (1993)
  • K. Schoutens et al.

    Black hole evaporation and quantum gravity

    CERNTH.7142/94

    (January 1994)
  • Y. Kiem et al.

    Quantum horizons and complementarity

    CERN-TH.7469/95, PUPT-1504

    (January 1995)
  • D.A. Lowe et al.

    Black hole complementarity versus locality

    NSF-ITP-95-47

    (June 1995)
  • E. Keski-Vakkuri et al.

    Breakdown of the semi-classical approximation at the black hole horizon

    MIT-CTP-2341

    (August 1994)
  • P. Kraus et al.

    Self-interaction correction to black hole radiance

    PUPT 1490, IASSNS 94/61

    (August 1994)
  • P. Kraus et al.

    Effect of self-interaction on charged black hole radiance

    PUPT 1511, IASSNS 94/101

    (November 1994)

    • Cited by (7)

    • Microcanonical D-branes and back reaction

      1997, Nuclear Physics B

    • Classical hair in string theory (II). Explicit calculations

      1997, Nuclear Physics B

    • Quantitative approaches to information recovery from black holes

      2011, Classical and Quantum Gravity

    • Exactly solvable charged dilaton gravity theories in two dimensions

      1998, Classical and Quantum Gravity

    • Superluminal chaos after a quantum quench

      2019, Journal of High Energy Physics

    • Superluminal chaos after a quantum quench

      2019, arXiv
    View all citing articles on Scopus
    View full text
    Copyright © 1996 Published by Elsevier B.V.