Planck stars
Abstract
A star that collapses gravitationally can reach a further stage of its life, where quantum-gravitational pressure counteracts weight. The duration of this stage is very short in the star proper time, yielding a bounce, but extremely long seen from the outside, because of the huge gravitational time dilation. Since the onset of quantum-gravitational effects is governed by energy density ---not by size--- the star can be much larger than planckian in this phase. The object emerging at the end of the Hawking evaporation of a black hole can then be larger than planckian by a factor , where is the mass fallen into the hole, is the Planck mass, and is positive. We consider arguments for and for . There is no causality violation or faster-than-light propagation. The existence of these objects alleviates the black-hole information paradox. More interestingly, these objects could have astrophysical and cosmological interest: they produce a detectable signal, of quantum gravitational origin, around the wavelength.
Cite
@article{arxiv.1401.6562,
title = {Planck stars},
author = {Carlo Rovelli and Francesca Vidotto},
journal= {arXiv preprint arXiv:1401.6562},
year = {2015}
}
Comments
6 pages, 3 figures. Nice paper