Charge ordering and opening of spin gap in NaV2O5
Abstract
We suggest that the phase transition observed in NaV2O5 at Tc = 34K is not a spin-Peierls transition, but a charge ordering transition, related to the formal presence in this system of equal number of V4+ and V4- ions. Below Tc, V4+ ions form a zigzag structure, which is consistent with the experimentally observed doubling of the lattice period in a and b directions. We show that this charge ordering also results in the alternation of spin exchange constants along the b-direction, which opens a gap in the spin excitation spectrum. We emphasize the role of lattice distortions around V ions both in the formation of the charged ordered state and in the spin-gap opening.
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