Noncommutative geometry inspired Schwarzschild black hole

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Abstract

We investigate the behavior of a noncommutative radiating Schwarzschild black hole. It is shown that coordinate noncommutativity cures usual problems encountered in the description of the terminal phase of black hole evaporation. More in detail, we find that: the evaporation end-point is a zero temperature extremal black hole even in the case of electrically neutral, non-rotating, objects; there exists a finite maximum temperature that the black hole can reach before cooling down to absolute zero; there is no curvature singularity at the origin, rather we obtain a regular DeSitter core at short distance.

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Quantized Space-Time

Hartland S. Snyder (1947)

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String Theory and the Principle of Black Hole Complementarity

L. Susskind (1993)

String theory provides an example of the kind of apparent inconsistency that the {\it Principle of Black Hole Complementarity\/} deals with. To a freely infalling observer a string falling through a black hole horizon appears to be a Planck size object. To an outside observer the string and all the information it carries begin to spread as the string approaches the horizon. In a time of order the ``information retention time'' it fills the entire area of the horizon.

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Author and article information

Journal

Publication date Created: 26 October 2005

Publication date Updated: 2005-11-12

Article

DOI: 10.1016/j.physletb.2005.11.004

ArXiV ID: gr-qc/0510112

SO-VID: 68c30606-e99d-430b-80c4-bf276e63e6aa

History

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Journal reference Phys.Lett.B632:547-551,2006

Comments 7 pages, Revtex, 4 eps figures, final version, accepted for publication in Phys.Lett. B

Categories gr-qc hep-th

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