物理
拓扑绝缘体
光电流
电场
极化(电化学)
凝聚态物理
光子
半导体
激光器
GSM演进的增强数据速率
光电效应
辐射
绝缘体(电)
光子学
现象学模型
激发
非线性系统
光辐射
量子
量子阱
非线性光学
领域(数学)
光学现象
表面状态
光电导性
激发极化
圆极化
光学
作者
Mikhail V. Durnev,Sergey A. Tarasenko
标识
DOI:10.1002/andp.201800418
摘要
Abstract Excitation of a topological insulator by a high‐frequency electric field of a laser radiation leads to a dc electric current in the helical edge channel whose direction and magnitude are sensitive to the radiation polarization and depend on the physical properties of the edge. An overview of theoretical and experimental studies of such edge photoelectric effects in 2D topological insulators based on semiconductor quantum wells is presented. First, a phenomenological description is given of edge photocurrents, which may originate from the photogalvanic effects or the photon drag effects, for edges of all possible symmetry. Then, microscopic mechanisms of photocurrent generation for different types of optical transitions involving helical edge states are discussed. They include direct and indirect optical transitions within the edge channel and edge‐to‐bulk optical transitions.
科研通智能强力驱动
Strongly Powered by AbleSci AI