Phase transitions in a frustrated Ising antiferromagnet on a square lattice

Abstract

The phase transitions occurring in the frustrated Ising square antiferromagnet with first- (J1 < 0) and second- (J2 < 0) nearest-neighbor interactions are studied within the framework of the effective-field theory with correlations based on the different cluster sizes and for a wide range of R = J2/|J1|. Despite the simplicity of the model, it has proved difficult to precisely determine the order of the phase transitions. In contrast to the previous effective-field study, we have found a first-order transition line in the region close to R = -0.5 not only between the superantiferromagnetic and paramagnetic (R<-0.5) but also between antiferromagnetic and paramagnetic (R>-0.5) phases.