Off-Shell Strings II: Black Hole Entropy
Abstract
In 1994, Susskind and Uglum argued that it is possible to derive the Bekenstein-Hawking entropy from string theory. In this article we explain the conceptual underpinnings of this argument, while elucidating its relationship to induced gravity and ER=EPR. Following an off-shell calculation by Tseytlin, we explicitly derive the classical closed string effective action from sphere diagrams at leading order in . We then show how to use this to obtain black hole entropy from the RG flow of the NLSM on conical manifolds. (We also briefly discuss the more problematic ``open string picture'' of Susskind and Uglum, in which strings end on the horizon.) We then compare these off-shell results with the rival ``orbifold replica trick'' using the on-shell background, which does not account for the leading order Bekenstein-Hawking entropy -- unless perhaps tachyons are allowed to condense on the orbifold. Possible connections to the ER=EPR conjecture are explored. Finally, we discuss prospects for various extensions, including prospects for deriving holographic entanglement entropy in the bulk of AdS.
Cite
@article{arxiv.2211.16448,
title = {Off-Shell Strings II: Black Hole Entropy},
author = {Amr Ahmadain and Aron C. Wall},
journal= {arXiv preprint arXiv:2211.16448},
year = {2024}
}
Comments
24 pages, 6 figures. v3: edited for clarity, corrected typos, and made minor changes to sections III and IV