Sound Waves in (2+1) Dimensional Holographic Magnetic Fluids
Abstract
We use the AdS/CFT correspondence to study propagation of sound waves in strongly coupled (2+1) dimensional conformal magnetic fluids. Our computation provides a nontrivial consistency check of the viscous magneto-hydrodynamics of Hartnoll-Kovtun-Muller-Sachdev to leading order in the external field. Depending on the behavior of the magnetic field in the hydrodynamic limit, we show that it can lead to further attenuation of sound waves in the (2+1) dimensional conformal plasma, or reduce the speed of sound. We present both field theory and dual supergravity descriptions of these phenomena. While to the leading order in momenta the dispersion of the sound waves obtained from the dual supergravity description agrees with the one predicted from field theory, we find a discrepancy at higher order. This suggests that further corrections to HKMS magneto-hydrodynamics are necessary.
Cite
@article{arxiv.0810.4094,
title = {Sound Waves in (2+1) Dimensional Holographic Magnetic Fluids},
author = {Evgeny I. Buchbinder and Alex Buchel and Samuel E. Vazquez},
journal= {arXiv preprint arXiv:0810.4094},
year = {2009}
}
Comments
32 pages, LaTeX; minor corrections, references added; an error in the boundary conditions fixed, a slight change in the results