Semiclassical Einstein equations from holography and boundary dynamics
Abstract
In this paper, we consider how to formulate semiclassical problems in the context of the AdS/CFT correspondence, based on the proposal of Compere and Marolf. Our prescription involves the effective action with self-action term for boundary dynamical fields, which can be viewed as imposing mixed boundary conditions for the gravity dual. We derive the semiclassical Einstein equations sourced by boundary CFT stress-energy tensor. Analyzing perturbations of the holographic semiclassical Einstein equations, we find a universal parameter which controls the contribution from boundary CFTs and specifies dynamics on the AdS boundary. As a simple example, we examine the semiclassical Einstein equations in -dimensions with -dimensional AdS gravity dual, and show that the boundary BTZ black hole with vanishing expectation value of the stress-energy tensor becomes unstable due to the backreaction from quantum stress-energy tensor when the parameter exceeds a certain critical value.
Cite
@article{arxiv.2301.12170,
title = {Semiclassical Einstein equations from holography and boundary dynamics},
author = {Akihiro Ishibashi and Kengo Maeda and Takashi Okamura},
journal= {arXiv preprint arXiv:2301.12170},
year = {2023}
}
Comments
34 page, 4 figures; one figure and refs added, some clarifications made, version to appear in JHEP