English

Black Hole Entropy: Off-Shell vs On-Shell

High Energy Physics - Theory 2008-11-26 v2 General Relativity and Quantum Cosmology

Abstract

Different methods of calculation of quantum corrections to the thermodynamical characteristics of a black hole are discussed and compared. The relation between on-shell and off-shell approaches is established. The off-shell methods are used to explicitly demonstrate that the thermodynamical entropy STDS^{TD} of a black hole, defined by the first thermodynamical law, differs from the statistical-mechanical entropy SSMS^{SM}, determined as SSM=\mboxTr(ρ^Hlnρ^H)S^{SM}=-\mbox{Tr}(\hat{\rho}^H\ln\hat{\rho}^H) for the density matrix ρ^H\hat{\rho}^H of a black hole. It is shown that the observable thermodynamical black hole entropy can be presented in the form STD=πrˉ+2+SSMSRindlerSMS^{TD}=\pi {\bar r}_+^2+S^{SM}-S^{SM}_{Rindler}. Here rˉ+{\bar r}_+ is the radius of the horizon shifted because of the quantum backreaction effect, and SRindlerSMS^{SM}_{Rindler} is the statistical-mechanical entropy calculated in the Rindler space.

Keywords

Cite

@article{arxiv.hep-th/9512184,
  title  = {Black Hole Entropy: Off-Shell vs On-Shell},
  author = {V. P. Frolov and D. V. Fursaev and A. I. Zelnikov},
  journal= {arXiv preprint arXiv:hep-th/9512184},
  year   = {2008}
}

Comments

47 pages, latex, 7 postscript figures have been included since the first submission of the article