Nature of insulating state in NaV2O5 above charge-ordering transition: a cluster DMFT study
Abstract
The nature of insulating state driven by electronic correlations in the quarter-filled ladder compound α'NaV2O5 is investigated within a cluster dynamical mean-field approach. An extended Hubbard model with first-principle tight-binding parameters have been used. It is shown that the insulating state in the charge-disordered phase of this compound is formed due to the transfer of spectral density and dynamical charge fluctuations where for the latter, the role of inter-site Coulomb interaction is found to be of crucial importance.
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