Generalized dilaton gravity in 2d
Abstract
Generalized dilaton gravity in 2d is the most general consistent deformation of the Jackiw-Teitelboim model that maintains local Lorentz invariance. The action is generically not power-counting renormalizable, thus going beyond the class of models typically studied. Nevertheless, all these models are exactly soluble. We focus on a subclass of dilaton scale invariant models. Within this subclass, we identify a 3-parameter family of models that describe black holes asymptoting to AdS2 in the UV and to dS2 in the IR. Since these models could be interesting for holography, we address thermodynamics and boundary issues, including boundary charges, asymptotic symmetries and holographic renormalization.
Cite
@article{arxiv.2109.03266,
title = {Generalized dilaton gravity in 2d},
author = {Daniel Grumiller and Romain Ruzziconi and Céline Zwikel},
journal= {arXiv preprint arXiv:2109.03266},
year = {2022}
}
Comments
35 pp, 5 figs; v2: added refs. and item in sec. 7; v3 added refs. and appendix