Superconductivity from gauge/gravity duality with flavor
Abstract
We consider thermal strongly-coupled N=2 SYM theory with fundamental matter at finite isospin chemical potential. Using gauge/gravity duality, i.e. a probe of two flavor D7-branes embedded in the AdS black hole background, we find a critical temperature at which the system undergoes a second order phase transition. The critical exponent of this transition is one half and coincides with the result from mean field theory. In the thermodynamically favored phase, a flavor current acquires a vev and breaks an Abelian symmetry spontaneously. This new phase shows signatures known from superconductivity, such as an infinite dc conductivity and a gap in the frequency-dependent conductivity. The gravity setup allows for an explicit identification of the degrees of freedom in the dual field theory, as well as for a dual string picture of the condensation process.
Cite
@article{arxiv.0810.2316,
title = {Superconductivity from gauge/gravity duality with flavor},
author = {Martin Ammon and Johanna Erdmenger and Matthias Kaminski and Patrick Kerner},
journal= {arXiv preprint arXiv:0810.2316},
year = {2009}
}
Comments
11 pages, 5 figures