The Hall effect,discovered in 1879,requires magnetic fields or magnetic orders to produce a transverse voltage signal in response to the longitudinal driving electric field.However,the nonlinear Hall effect(NLHE),prop...The Hall effect,discovered in 1879,requires magnetic fields or magnetic orders to produce a transverse voltage signal in response to the longitudinal driving electric field.However,the nonlinear Hall effect(NLHE),proposed by Sodemann and Fu in 2015[1]has elucidated a novel Hall effect in time-reversal invariant and inversion-symmetry breaking materials featured with a nonlinear dependence on the primary current.展开更多
基金support from the Shenzhen Excellent Scientific and Technological Innovation Talent Training Program(RCBS20210609103859072)Shenzhen Institutions of Higher Learning Stability Support Plan(GXWD20231130102040001)+4 种基金the National Natural Science Foundation of China(62105081)support from the National Natural Science Foundation of China(62174044)support from the DFG(SFB1170)the Würzburg-Dresden Cluster of Excellence ct.qmat,EXC2147,Project ID 390858490the Bavarian Ministry of Economic Affairs,Regional Development and Energy within the High Tech Agenda Project‘‘Bausteine für das Quanten Computing auf Basis Topologischer Materialen”。
文摘The Hall effect,discovered in 1879,requires magnetic fields or magnetic orders to produce a transverse voltage signal in response to the longitudinal driving electric field.However,the nonlinear Hall effect(NLHE),proposed by Sodemann and Fu in 2015[1]has elucidated a novel Hall effect in time-reversal invariant and inversion-symmetry breaking materials featured with a nonlinear dependence on the primary current.
