Finite-Temperature Mott Transition in Two-Dimensional Frustrated Hubbard Models(Interaction and Nanostructural Effects in Low-Dimensional Systems)

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概要

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• We investigate the Hubbard model on two typical frustrated lattices in two dimensions, the kagome lattice and the anisotropic triangular lattice, by means of the cellular dynamical mean field theory. We show that the metallic phase is stabilized up to fairly large Hubbard interactions under strong geometrical frustration in both cases, which results in heavy fermion behavior and several anomalous properties around the Mott transition point. In particular, for the anisotropic triangular lattice, we find novel reentrant behavior in the Mott transition in the moderately frustrated parameter regime, which is caused by the competition between Fermi-liquid formation and magnetic correlations. It is demonstrated that the reentrant behavior is a generic feature inherent in the Mott transition with intermediate geometrical frustration, and indeed in accordance with recent experimental findings for organic materials.

• 理論物理学刊行会の論文
• 2009-02-05

著者

• 桃井 勉

  独立行政法人理化学研究所

• KAWAKAMI Norio

  Department of Applied Physics, Osaka University

• Kawakami Norio

  Department Of Applied Physics Osaka University

• Kawakami Norio

  Department Of Physics Kyoto University

• TSUNETSUGU Hirokazu

  Institute of Materials Science, University of Tsukuba

• Tsutomu Momoi

  Condensed Matter Theory Laboratory Riken

• Momoi Tsutomu

  Condensed Matter Theory Lab Riken

• Momoi Tsutomu

  Condensed Matter Theory Laboratory Riken

• OHASHI Takuma

  Department of Physics, Osaka University

• Ohashi Takuma

  Department Of Physics Osaka University:condensed Matter Theory Laboratory Riken

• Ohashi Takuma

  Department Of Applied Physics Osaka University

• Tsunetsugu Hirokazu

  Institute For Solid Physics The University Of Tokyo

• KAWAKAMI Norio

  Department of Physics, Kyoto University

• OHASHI Takuma

  Department of Physics, Osaka University:Condensed Matter Theory Laboratory, RIKEN

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