Zhang Xiaohang, Yu Liuqi, von Molnár Stephan, Fisk Zachary, Xiong Peng
Department of Physics & MARTECH, Florida State University, Tallahassee, Florida 32306, USA.
Phys Rev Lett. 2009 Sep 4;103(10):106602. doi: 10.1103/PhysRevLett.103.106602. Epub 2009 Sep 1.
This work reports a study of the nonlinear Hall effect (HE) in the semimetallic ferromagnet EuB(6). A distinct switch in its Hall resistivity slope is observed in the paramagnetic phase, which occurs at a single critical magnetization over a wide temperature range. The observation is interpreted as the point of percolation for entities of a more conducting and magnetically ordered phase in a less ordered background. With an increasing applied magnetic field, the conducting regions either increase in number or expand beyond the percolation limit, hence increasing the global conductivity and effective carrier density. An empirical two-component model provides excellent scaling and a quantitative fit to the HE data and may be applicable to other correlated electron systems.
这项工作报道了对半金属铁磁体EuB(6)中非线性霍尔效应(HE)的一项研究。在顺磁相中观察到其霍尔电阻率斜率有明显的转变,该转变在很宽的温度范围内发生在单一临界磁化强度处。这一观察结果被解释为在较无序背景中更具导电性且磁有序相的实体的渗流点。随着外加磁场的增加,导电区域的数量增加或扩展到渗流极限之外,从而提高了整体电导率和有效载流子密度。一个经验性的双组分模型对霍尔效应数据提供了出色的标度关系和定量拟合,并且可能适用于其他关联电子系统。
