Conformal Nonlinear Fluid Dynamics from Gravity in Arbitrary Dimensions
Abstract
We generalize recent work to construct a map from the conformal Navier Stokes equations with holographically determined transport coefficients, in d spacetime dimensions, to the set of asymptotically locally AdS_{d+1} long wavelength solutions of Einstein's equations with a negative cosmological constant, for all d>2. We find simple explicit expressions for the stress tensor (slightly generalizing the recent result by Haack and Yarom (arXiv:0806.4602)), the full dual bulk metric and an entropy current of this strongly coupled conformal fluid, to second order in the derivative expansion, for arbitrary d>2. We also rewrite the well known exact solutions for rotating black holes in AdS_{d+1} space in a manifestly fluid dynamical form, generalizing earlier work in d=4. To second order in the derivative expansion, this metric agrees with our general construction of the metric dual to fluid flows.
Cite
@article{arxiv.0809.4272,
title = {Conformal Nonlinear Fluid Dynamics from Gravity in Arbitrary Dimensions},
author = {Sayantani Bhattacharyya and R. Loganayagam and Ipsita Mandal and Shiraz Minwalla and Ankit Sharma},
journal= {arXiv preprint arXiv:0809.4272},
year = {2009}
}
Comments
39 pages, 1 figure. JHEP format, v2 : Minor modifications, References added