A membrane paradigm at large D
Abstract
We study invariant solutions of the classical vacuum Einstein equations in dimensions. In the limit with held fixed we construct a class of solutions labelled by the shape of a membrane (the event horizon), together with a `velocity' field that lives on this membrane. We demonstrate that our metrics can be corrected to nonsingular solutions at first sub-leading order in if and only if the membrane shape and `velocity' field obey equations of motion which we determine. These equations define a well posed initial value problem for the membrane shape and this `velocity' and so completely determinethe dynamics of the black hole. They may be viewed as governing the non-linear dynamics of the light quasi normal modes of Emparan, Suzuki and Tanabe.
Cite
@article{arxiv.1504.06613,
title = {A membrane paradigm at large D},
author = {Sayantani Bhattacharyya and Anandita De and Shiraz Minwalla and Ravi Mohan and Arunabha Saha},
journal= {arXiv preprint arXiv:1504.06613},
year = {2016}
}
Comments
The main results emphasised better, The presentation of the quasinormal modes improved for clarity and typos corrected