摘要
Based on the hierarchical equations of motion(HEOM)calculation,we theoretically investigate the corresponding control of a triangular triple-quantum-dots(TTQD)ring which is connected to two reservoirs.We initially demonstrate by adding bias voltage and further adjusting the coupling strength between quantum dots,the chiral current induced by bias will go through a transformation of clockwise to counterclockwise direction and an unprecedented effective Hall angle will be triggered.The transformation is very rapid,with a corresponding characteristic time of 80-200 ps.In addition,by adding a magnetic flux to compensate for the chiral current in the original system,we elucidate the relationship between the applied magnetic flux and the Berry phase,which can realize direct measurement of the chiral current and reveal the magnetoelectric coupling relationship.
作者
齐月
刘一铭
王援东
魏建华
朱振刚
Yue Qi;Yi-Ming Liu;Yuan-Dong Wang;Jian-Hua Wei;Zhen-Gang Zhu(Department of Physics,Renmin University,Beijing 100876,China;School of Electronic,Electrical and Communication Engineering,University of Chinese Academy of Sciences,Beijing 100049,China)
基金
Project supported by the National Natural Science Foundation of China(Grant Nos.11774418,11374363,11674317,11974348,11834014,and 21373191)
the Strategic Priority Research Program of CAS(Grant Nos.XDB28000000 and XDB33000000)
the Training Program of Major Research Plan of NSFC(Grant No.92165105)。
