Entropic Entanglement: Information Prison Break
Abstract
We argue certain nonviolent local quantum field theory (LQFT) modification considered at the global horizon () of a static spherically-symmetric black hole can lead to adiabatic leakage of quantum information in the form of Hawking particles. The source of the modification is (i) smooth at and (ii) rapidly vanishing at . Furthermore, we restore the unitary evolution by introducing extra quanta which departs slightly from the generic Hawking emission without changing the experience of an infalling observer (no drama). Also, we suggest that a possible interpretation of the Bekenstein-Hawking bound as entanglement entropy may yield a nonsingular dynamical horizon behavior described by black hole thermodynamics. Hence by treating gravity as a field theory, and considering its coupling to the matter fields in the Minkowski vacuum, we derive the conjectured fluctuations of the background geometry of a black hole.
Cite
@article{arxiv.1707.01768,
title = {Entropic Entanglement: Information Prison Break},
author = {Alexander Y. Yosifov and Lachezar G. Filipov},
journal= {arXiv preprint arXiv:1707.01768},
year = {2017}
}
Comments
16 pages, 2 figures. Published in Advances in High Energy Physics