NaV2O5 as an Anisotropic t-J Ladder at Quarter Filling

Abstract

Based on recent experimental evidences that the electronic charge degrees of freedom plays an essential role in the spin-Peierls--like phase transition of NaV2O5, we first make the mapping of low-energy electronic states of the d-p model for NaV2O5 to the quarter-filled t-J ladder with anisotropic parameter values between legs and rungs, and then show that this anisotropic t-J ladder is in the Mott insulating state, of which lowest-energy states can be modeled by the one-dimensional Heisenberg antiferromagnet with the effective exchange interaction Jeff whose value is consistent with experimental estimates. We furthermore examine the coupling between the ladders as the trellis lattice model and show that the nearest-neighbor Coulomb repulsion on the zigzag-chain bonds can lead to the instability in the charge degrees of freedom of the ladders.

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