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Distinct nature of orbital-selective Mott phases dominated by low-energy local spin fluctuations

机译:由低能量局部旋转波动主导的轨道选择性斑块的轨道选择性的不同性质

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Quantum orbital-selective Mott (OSM) transitions are investigated within dynamical mean-field theory based on a two-orbital Hubbard model with different bandwidth at half filling. We find two distinct OSM phases both showing coexistence of itinerant electrons and localized spins, dependent on whether the Hund’s coupling is full or of Ising type. The critical values and the nature of the OSM transitions are efficiently determined by entanglement entropy.We reveal that vanishing of the Kondo energy scale evidenced by absence of local spin fluctuations at low frequency in local dynamical spin susceptibility is responsible for the appearance of non-Fermi-liquid OSMphase in Ising Hund’s coupling case. We argue that this scenario can also be applied to account for emergent quantum non-Fermi liquid in the one-band Hubbard model when short-range antiferromagnetic order is considered.
机译:在基于双轨道的喧哗模型的动态平均场理论内研究了量子轨道选择性薄荷(OSM)转变,其双轨道模型具有不同的带宽在半填充。我们发现两种不同的OSM阶段都显示出悠闲的电子和局部旋转的共存,取决于HUND的耦合是否完整或均匀。 OSM过渡的临界值和性质是通过缠结熵有效确定的。我们揭示了通过在局部动态旋转敏感性的低频处的局部旋转波动的缺失证明的kondo能量规模的消失是负责非费米的外观 - in Ising Hund耦合案件中的osmphase。我们认为,当考虑短程反铁磁阶数时,也可以应用这种情况来考虑一频带Hubbard模型中的突出量子非费米液。

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  • 来源
    《Physical Review. B, Condensed Matter》 |2017年第24期|235119.1-235119.12|共12页
  • 作者

    Ze-Yi Song; Xiu-Cai Jiang; Hai-Qing Lin; Yu-Zhong Zhang;

  • 作者单位

    Shanghai Key Laboratory of Special Artificial Microstructure Materials and Technology School of Physics Science and Engineering Tongji University Shanghai 200092 People’s Republic of China;

    Shanghai Key Laboratory of Special Artificial Microstructure Materials and Technology School of Physics Science and Engineering Tongji University Shanghai 200092 People’s Republic of China;

    Beijing Computational Science Research Center Beijing 100084 People’s Republic of China;

    Shanghai Key Laboratory of Special Artificial Microstructure Materials and Technology School of Physics Science and Engineering Tongji University Shanghai 200092 People’s Republic of China Beijing Computational Science Research Center Beijing 100084 People’s Republic of China;

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