Charge-Ordered State versus Dimer-Mott Insulator at Finite Temperatures

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Yoshioka, Hideo
Tsuchiizu, Masahisa
Seo, Hitoshi
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Abstract
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We theoretically investigate the competition between charge-ordered state and Mott insulating state at finite temperatures in quarter-filled quasi-one-dimensional electron systems, by studying dimerized extended Hubbard chains with interchain Coulomb interactions. In order to take into account one-dimensional fluctuations properly, we apply the bosonization method to an effective model obtained by the interchain mean-field approximation. The results show that lattice dimerization, especially in the critical region, and frustration in the interchain Coulomb interactions reduce the charge-ordering phase transition temperature and enlarge the dimer-Mott insulating phase. We also derive a general formula of the Knight shift in the charge-ordered phase and its implication to experiments is discussed.
Comment: 5 pages, 4 figures, to be published in J. Phys. Soc. Jpn. Vol.76 No.10
Keywords
Condensed Matter - Strongly Correlated Electrons
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