Random Field Ising Model: Dimensional Reduction or Spin-Glass Phase?

The partition function, pair correlation function and the zero-field susceptibility for the one-dimen- sional Ising model with arbitrary spin are shown to be expressed in

(b) The zero-temperature phase diagram of the diluted mixed spin-1/2 and spin-1 Ising system in a random transverse field on simple cubic lattice (z = 6), for different values of p,

The diluted mixed spin Ising system consisting of spin- 1 2 and spin-1 with a random field is studied by the use of the finite cluster approximation within the framework of

When 1/2 < α < 1, the above Imry & Ma argument suggests the existence of a phase transition since the deterministic part is dominant with respect to the random part as in

on temperature becomes more and more important as the strength of the anisotropy takes higher values. It is worthy to note here that for a given large value of D; M x is a

Our results are compatible with dimensional reduction being restored in five dimensions: We find that the critical exponents of the 5D RFIM are compatible to those of the pure 3D

Abstract: From the study of a functional equation relating the Gibbs measures at two different tempratures we prove that the specific entropy of the Gibbs measure of

This equation enables us to calculate the limiting free energy of the Sherrington-Kirkpatrick spin glass model at this particular value of low temperature without making use of