Electronic Structure and Exchange Interactions of Na2V3O7

Abstract

We have performed first-principle calculations of the electronic structure and exchange couplings for the nanotube compound Na2V3O7 using the LDA+U approach. Our results show that while the intra-ring exchange interactions are mainly antiferromagnetic, the inter-ring couplings are ferromagnetic. We argue that this is a consequence of the strong hybridization between filled and vacant 3d vanadium orbitals due to the low symmetry of Na2V3O7, which results into strong - and often dominant - ferromagnetic contributions to the total exchange interaction between vanadium atoms. A comparison with results of previous works is included.

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