Evaluation of Compensated Magnetism in La2VCuO6: Exploration of Charge States

Abstract

We present an ab initio study of double perovskite La2VCuO6, which was one of the earliest compounds suggested as a potential compensated half-metal. Two charge and spin configurations close in energy have been identified. (i) The originally envisioned spin-compensated V4+:d1/Cu2+:d1 configuration is comprised of antialigned S=1/2 cations. This state is a spin-compensated half-metal for moderate values of U (the on-site Coulomb repulsion strength on the metal ions) and is insulating for larger values of U. (ii) An unanticipated non-magnetic solution V5+:d0/Cu+:d10 consists of an empty- and a full-shell ion, both spherically symmetric, that leads to a band insulator. This ionic band insulator is calculated to be the ground state at small and moderate values of U. The different distortions of the perovskite structure that occur for each state are central in determining the energy differences. Treating the Cu2+ Jahn-Teller distortion self-consistently is particularly important for the magnetic solution.