Holographic Abrikosov lattice: vortex matter from black hole

Abstract

The AdS/CFT correspondence provides a unique way to study the vortex matter phases in superconductors. We solved the nonlinear equations of motion for the Abelain-Higgs theory living on the AdS4 black hole boundary that is dual to a two dimensional strongly coupled type II superconductor at temperature T with a perpendicular external uniform magnetic field B0. We found the associated two critical magnetic fields, Bc1(T) and Bc2(T). For B0 < Bc1(T) the magnetic field will be expelled out by the superconductor resembling the Meissner effect and the superconductivity will be destroyed when B0 > Bc2(T). The Abrikosov lattice appears in the range Bc1(T) < B0 < Bc2(T) including, due to the finite size and boundary effect, several kinds of configurations such as hexagonal, square and slightly irregular square lattices, when the magnetic field is increased. The upper and lower critical fields behave as inverse squares of coherence length and magnetic penetration depth respectively which matches the well known consensus.