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Realization of insulating state and superconductivity in the Rashba semiconductor BiTeCl

机译:Rashba半导体BiTeCl的绝缘状态和超导性的实现

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摘要

Measurements of the resistivity, Hall coefficient, and Raman spectroscopy are performed on a Rashba semiconductor BiTeCl single crystal at high pressures up to 50 GPa. We find that applying pressure first induces a theoretically predicted insulating state, followed by a superconducting phase with an insulating normal state. Upon heavy compression, another different superconducting phase is entered into with a metallic normal state. A domelike evolution of the superconducting transition temperature with pressure is obtained with a crossover from the electron to hole carriers across the boundary of the two superconducting phases. These findings imply the possible realization of a topological state of the insulating and superconducting phases in this material.
机译:在最高50 GPa的高压下,在Rashba半导体BiTeCl单晶上进行电阻率,霍尔系数和拉曼光谱的测量。我们发现施加压力首先会诱导理论上预测的绝缘状态,然后是具有绝缘正常状态的超导相。在重压缩时,另一种不同的超导相进入金属常态。通过跨两个超导相的边界从电子到空穴载流子的交叉,获得了超导转变温度随压力的圆顶状演化。这些发现暗示了在这种材料中可能实现绝缘相和超导相的拓扑状态。

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  • 来源
    《Physical review. B, Condensed Matter And Materals Physics》 |2016年第10期|100504.1-100504.6|共6页
  • 作者

    Jian-Jun Ying; Viktor V. Struzhkin; Zi-YuCao; Alexander F. Goncharov; Ho-Kwang Mao; Fei Chen; Xian-Hui Chen; Alexander G. Gavriliuk; Xiao-Jia Chen;

  • 作者单位

    Center for High Pressure Science and Technology Advanced Research, Shanghai 201203, China ,Geophysical Laboratory, Carnegie Institution of Washington, Washington, D.C. 20015, USA;

    Geophysical Laboratory, Carnegie Institution of Washington, Washington, D.C. 20015, USA;

    Center for High Pressure Science and Technology Advanced Research, Shanghai 201203, China ,Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, China;

    Geophysical Laboratory, Carnegie Institution of Washington, Washington, D.C. 20015, USA ,Key Laboratory of Materials Physics, Institute of Solid State Physics, Chinese Academy of Sciences, Hefei 230031, China;

    Center for High Pressure Science and Technology Advanced Research, Shanghai 201203, China ,Geophysical Laboratory, Carnegie Institution of Washington, Washington, D.C. 20015, USA;

    Center for High Pressure Science and Technology Advanced Research, Shanghai 201203, China ,Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China;

    Hefei National Laboratory for Physical Science at Microscale and Department of Physics, University of Science and Technology of China, Hefei, Anhui 230026, China;

    Institute of Crystallography, Russian Academy of Sciences, Leninsky pr. 59, Moscow 119333, Russia ,Institute for Nuclear Research, Russian Academy of Sciences, Troitsk, Moscow 142190, Russia;

    Center for High Pressure Science and Technology Advanced Research, Shanghai 201203, China ,Geophysical Laboratory, Carnegie Institution of Washington, Washington, D.C. 20015, USA;

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