Self-Completeness and the Generalized Uncertainty Principle
Abstract
The generalized uncertainty principle discloses a self-complete characteristic of gravity, namely the possibility of masking any curvature singularity behind an event horizon as a result of matter compression at the Planck scale. In this paper we extend the above reasoning in order to overcome some current limitations to the framework, including the absence of a consistent metric describing such Planck-scale black holes. We implement a minimum-size black hole in terms of the extremal configuration of a neutral non-rotating metric, which we derived by mimicking the effects of the generalized uncertainty principle via a short scale modified version of Einstein gravity. In such a way, we find a self-consistent scenario that reconciles the self-complete character of gravity and the generalized uncertainty principle.
Cite
@article{arxiv.1310.8153,
title = {Self-Completeness and the Generalized Uncertainty Principle},
author = {Maximiliano Isi and Jonas Mureika and Piero Nicolini},
journal= {arXiv preprint arXiv:1310.8153},
year = {2013}
}
Comments
20 pages, 6 figures, v2: additional references, version in press on JHEP