Phase separation in systems with charge ordering

Abstract

A simple model of charge ordering is considered. It is shown explicitly that at any deviation from half-filling (n ≠ 1/2) the system is unstable with respect to phase separation into charge ordered regions with n = 1/2 and metallic regions with smaller electron or hole density. Possible structure of this phase-separated state (metallic droplets in a charge-ordered matrix)is discussed. The model is extended to account for the strong Hund-rule onsite coupling and the weaker intersite antiferromagnetic exchange. An analysis of this extended model allows us to determine the magnetic structure of the phase-separated state and to reveal the characteristic features of manganites and other substances with charge ordering.

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