Antiferromagnetic Phases of One-Dimensional Quarter-Filled Organic Conductors
Abstract
The magnetic structure of antiferromagnetically ordered phases of quasi-one-dimensional organic conductors is studied theoretically at absolute zero based on the mean field approximation to the quarter-filled band with on-site and nearest-neighbor Coulomb interaction. The differences in magnetic properties between the antiferromagnetic phase of (TMTTF)2X and the spin density wave phase in (TMTSF)2X are seen to be due to a varying degrees of roles played by the on-site Coulomb interaction. The nearest-neighbor Coulomb interaction introduces charge disproportionation, which has the same spatial periodicity as the Wigner crystal, accompanied by a modified antiferromagnetic phase. This is in accordance with the results of experiments on (TMTTF)2Br and (TMTTF)2SCN. Moreover, the antiferromagnetic phase of (DI-DCNQI)2Ag is predicted to have a similar antiferromagnetic spin structure.
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