Intermediate-spin state and properties of LaCoO3

Abstract

The electronic structure of the perovskite LaCoO3 for different spin states of Co ions was calculated in the LDA+U approach. The ground state was found to be a nonmagnetic insulator with Co ions in a low-spin state. Somewhat higher in energy we found two intermediate-spin states followed by a high-spin state at significantly higher energy. The calculation results show that Co 3d states of t2g symmetry form narrow bands which could easily localize whilst eg orbitals, due to their strong hybridization with the oxygen 2p states, form a broad σ* band. With the increase of temperature which is simulated by the corresponding increase of the lattice parameter, the transition from the low- to intermediate-spin states occurs. This intermediate-spin (occupation t2g5eg1) can develop an orbital ordering which can account for the nonmetallic nature of LaCoO3 at 90 K<T<500 K. Possible explanations of the magnetic behavior and gradual insulating-metal transition are suggested.

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