Semiclassical zero-temperature corrections to Schwarzschild spacetime and holography

Abstract

References (20)

Citing Articles

Download: PDF (206 kB) or Buy this Article (US$25) (Use Article Pack)

A. Fabbri,¹ S. Farese,¹ J. Navarro-Salas,¹ G. J. Olmo,² and H. Sanchis-Alepuz¹
¹Departamento de Física Teórica and IFIC, Centro Mixto Universidad de Valencia-CSIC Facultad de Física, Universidad de Valencia, Burjassot-46100, Valencia, Spain
²Department of Physics, University of Wisconsin–Milwaukee, P.O. Box 413, Milwaukee, Wisconsin, 53201 USA

Received 2 March 2006; published 19 May 2006

Motivatedby the quest for black holes in anti-de Sitter braneworlds,and, in particular, by the holographic conjecture relating 5D classicalbulk solutions with 4D quantum corrected ones, we numerically solvethe semiclassical Einstein equations (backreaction equations) with matter fields inthe (zero-temperature) Boulware vacuum state. In the absence of anexact analytical expression for <T_µnu> in four dimensions we workwithin the s-wave approximation. Our results show that the quantumcorrected solution is very similar to Schwarzschild spacetime until veryclose to the horizon, but then a bouncing surface forthe radial function appears which prevents the formation of anevent horizon. We also analyze the behavior of the geometrybeyond the bounce, where a curvature singularity arises. In thedual theory, this indicates that the corresponding 5D static classicalbraneworld solution is not a black hole but rather anaked singularity.

URL:	http://link.aps.org/doi/10.1103/PhysRevD.73.104023
DOI:	10.1103/PhysRevD.73.104023
PACS:	04.62.+v; 04.70.Dy; 11.25.Tq 04.62.+v Quantum field theory in curved spacetime 04.70.Dy Quantum aspects of black holes, evaporation, thermodynamics 11.25.Tq Gauge/string duality (strings and branes) YEAR: 2006