Partial annealing of a coupled mean-field spin-glass model with an embedded pattern

Abstract

A partially annealed mean-field spin-glass model with a locally embedded pattern is studied. The model consists of two dynamical variables, spins and interactions, that are in contact with thermal baths at temperatures TS and TJ, respectively. Unlike the quenched system, characteristic correlations among the interactions are induced by the partial annealing. The model exhibits three phases, which are paramagnetic, ferromagnetic and spin-glass phases. In the ferromagnetic phase, the embedded pattern is stably realized. The phase diagram depends significantly on the ratio of two temperatures n=TJ/TS. In particular, a reentrant transition from the embedded ferromagnetic to the spin-glass phases with TS decreasing is found only below at a certain value of n. This indicates that above the critical value nc the embedded pattern is supported by local field from a non-embedded region. Some equilibrium properties of the interactions in the partial annealing are also discussed in terms of frustration.