Orbital ordering in frustrated Jahn-Teller systems

Abstract

We consider the superexchange in `frustrated' Jahn-Teller systems, such as the transition metal oxides NaNiO2, LiNiO2, and ZnMn2O4, in which transition metal ions with doubly degenerate orbitals form a triangular or pyrochlore lattice and are connected by the 90-degree metal-oxygen-metal bonds. We show that this interaction is much different from a more familiar exchange in systems with the 180-degree bonds, e.g. perovskites. In contrast to the strong interplay between the orbital and spin degrees of freedom in perovskites, in the 90-degree exchange systems spins and orbitals are decoupled: the spin exchange is much weaker than the orbital one and it is ferromagnetic for all orbital states. Due to frustration, the mean-field orbital ground state is strongly degenerate. Quantum orbital fluctuations select particular ferro-orbital states, such as the one observed in NaNiO2. We also discuss why LiNiO2 may still behave as an orbital liquid.

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