Interplay of strongly correlated electrons and localized Ising moments in one-dimension

Abstract

We study the ground state properties of the one-dimensional quarter-filled strongly correlated electronic chain coupled by J to another chain of antiferromagnetic Ising moments. We focus on the case where the large Coulomb interactions localize the charges on every other site. Both the electronic spins and the Ising moments interact antiferromagnetically within each chain by J eff and J', respectively. Since the number of electrons is half as that of the Ising moments the period of magnetic correlation of these two chains are incommensurate. In the presence of J, the frustration of J eff and J' arises, which may lead the system to the intriguing magneto-electric effect.