Random Z(2) Higgs Lattice Gauge Theory in Three Dimensions and its Phase Structure

Abstract

We study the three-dimensional random Z(2) lattice gauge theory with Higgs field, which has the link Higgs coupling c1 SUS and the plaquette gauge coupling c2 UUUU. The randomness is introduced by replacing c1 -c1 for each link with the probability p1 and c2 -c2 for each plaquette with the probability p2. We calculate the phase diagram by a new kind of mean field theory that does not assume the replica symmetry and also by Monte Carlo simulations. For the case p1=p2( p), the Monte Carlo simulations exhibit that (i) the region of the Higgs phase in the Coulomb-Higgs transition diminishes as p increases, and (ii) the first-order phase transition between the Higgs and the confinement phases disappear for p pc 0.01. We discuss the implications of the results to the quantum memory studied by Kitaev et al. and the Z(2) gauge neural network on a lattice.