Role of Phase Variables in Quarter-Filled Spin Density Wave States

Abstract

Several kinds of spin density wave (SDW) states with both quarter-filled band and dimerization are reexamined for a one-dimensional system with on-site, nearest-neighbor and next-nearest-neighbor repulsive interactions, which has been investigated by Kobayashi et al. (J. Phys. Soc. Jpn. 67 (1998) 1098). Within the mean-field theory, the ground state and the response to the density variation are calculated in terms of phase variables, θ and φ, where θ expresses the charge fluctuation of SDW and φ describes the relative motion between density wave with up spin and that with down spin respectively. It is shown that the exotic state of coexistence of 2kF-SDW and 2kF-charge density wave (CDW) is followed by 4kF-SDW but not by 4kF-CDW where kF denotes a Fermi wave vector. The harmonic potential with respect to the variation of θ and/or φ disappears for the interactions, which lead to the boundary between the pure 2kF-SDW state and the corresponding coexistent state.

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