Phase Diagram of Orbital-Selective Mott Transitions at Finite Temperatures(Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)

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概要

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• Mott transitions in the two-orbital Hubbard model with different bandwidths are investigated at finite temperatures. By means of the self-energy functional approach, we discuss the stability of the intermediate phase that has one orbital localized and the other itinerant; this phase is caused by the orbital-selective Mott transition (OSMT). It is shown that the OSMT realizes two different coexistence regions at finite temperatures in accordance with the recent results of Liebsch. We further find that a particularly interesting behavior emerges around the special conditions U=U' and J=0, which includes a new type of coexistence region that has three distinct states. By systematically changing the Hund coupling, we establish the global phase diagram to elucidate the key role played by the Hund coupling on the Mott transitions.

• 社団法人日本物理学会の論文
• 2005-09-15

著者

• KOGA Akihisa

  Department of Applied Physics, Osaka University

• Koga Akihisa

  Department Of Applied Physics Osaka University

• KAWAKAMI Norio

  Department of Applied Physics, Osaka University

• Kawakami Norio

  Department Of Physics Kyoto University:department Of Applied Physics Osaka University

• Kawakami Norio

  Department Of Applied Physics Osaka University

• Suga Seiichiro

  Department of Applied Physics, Osaka University

• INABA Kensuke

  Department of Applied Physics, Osaka University

• Inaba Kensuke

  Department Of Applied Physics Osaka University

• Suga Sei‐ichiro

  Department Of Applied Physics Osaka University

• Suga Sei-ichiro

  Department Of Applied Physics Osaka University

• Suga Seiichiro

  Department Of Applied Physics Osaka University

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