Fu Bo, Wang Huan-Wen, Shen Shun-Qing
Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China.
Phys Rev Lett. 2020 Dec 18;125(25):256601. doi: 10.1103/PhysRevLett.125.256601.
Resistivity anomaly, a sharp peak of resistivity at finite temperatures, in the transition-metal pentatellurides ZrTe_{5} and HfTe_{5} was observed four decades ago, and more exotic and anomalous behaviors of electric and thermoelectric transport were revealed in recent years. Here, we present a theory of Dirac polarons, composed by massive Dirac electrons and holes in an encircling cloud of lattice displacements or phonons at finite temperatures. The chemical potential of Dirac polarons sweeps the band gap of the topological band structure by increasing the temperature, leading to the resistivity anomaly. Formation of a nearly neutral state of Dirac polarons accounts for the anomalous behaviors of the electric and thermoelectric resistivity around the peak of resistivity.
电阻异常,即在有限温度下电阻率的一个尖锐峰值,早在四十年前就在过渡金属五碲化物ZrTe₅和HfTe₅中被观测到,并且近年来还揭示了更多奇特和异常的电输运与热输运行为。在此,我们提出一种狄拉克极化子理论,它由有限温度下在环绕的晶格位移或声子云里的大质量狄拉克电子和空穴组成。狄拉克极化子的化学势通过升高温度扫过拓扑能带结构的带隙,从而导致电阻异常。狄拉克极化子形成的近中性态解释了电阻率峰值附近电和热电阻率的异常行为。