Black Holes That Repel
Abstract
The recent observation that black holes in certain Einstein-Maxwell-Dilaton (EMD) theories can violate the entropy super-additivity led to the suggestion that these black holes might repel each other. In this paper, we consider EMD theories with two Maxwell fields , with general exponential couplings in their kinetic terms. We calculate the gravi-electrostatic force between charged black holes and ; the former is sufficiently small and can be treated as a point-like object. We find there is a potential barrier caused by the dilaton coupling at outside the back hole horizon , provided that . As the black hole approaches extremality, both and vanish, the barrier becomes infinitesimally thin but infinitely high, and the two black holes repel each other in the whole space. There is no electrostatic force between them; the dilaton is the antigravity agent. Furthermore we find that the exact constraint on can be derived from the requirements that two-charged extremal black holes have a fusion bomb like mass formula and the violation of entropy super-additivity can occur. The two very different approaches give a consistent picture of the black hole repulsion.
Keywords
Cite
@article{arxiv.1901.02894,
title = {Black Holes That Repel},
author = {H. Lu and Zhao-Long Wang and Qing-Qing Zhao},
journal= {arXiv preprint arXiv:1901.02894},
year = {2019}
}
Comments
Latex, 11 pages, comments and references added