Superconducting Coherence Length and Magnetic Penetration Depth of a p-wave Holographic Superconductor

Abstract

A classical SU(2) Einstein-Yang-Mills theory in 3+1 dimensional anti-de Sitter spacetime is believed to be dual to a p-wave superconductor in 2+1 dimensional flat spacetime. In order to calculate the superconductiong coherence length of the holographic superconductor near the superconducting phase transition point, we study the perturbation of the gravity theory analytically. The superconductiong coherence length is found to be proportional to (1-T/Tc)-1/2 near the critical temperature Tc. We also obtain the magnetic penetration depth λ(Tc-T)1/2 by adding a small external homogeneous magnetic field. The results agree with the Ginzburg-Landau theory.