Electronic States and Magnetic Propertis of Edge-sharing Cu-O Chains

Abstract

The electronic states and magnetic properties for the copper oxides containing edge-sharing Cu-O chains such as Li2CuO2, La6Ca8Cu24O41 and CuGeO3 are systematically studied. The optical conductivity σ(ω) and the temperature dependence of the magnetic susceptibility (T) for single crystalline samples Li2CuO2 are measured as a reference system and analyzed by using the exact diagonalization method for small Cu-O clusters. It is shown that the spectral distribution of σ(ω) is different between edge-sharing and corner-sharing Cu-O-Cu bonds. The charge transfer gap in edge-sharing chains is larger than that of high-Tc cuprates. The exchange interaction between nearest-neighbor copper ions in edge-sharing chains J1 depends sensitively on the Cu-O-Cu bond angles. In addition to J1, the exchange interaction between next-nearest-neighbor copper ions J2 has sufficient contribution to the magnetic properties. We calculate J1 and J2 for all the copper oxides containing edge-sharing Cu-O chains and discuss the magnetic properties.

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