Nonlinear Photocurrent in Quantum Materials for Broadband Photodetection

Yulin Shen, Louis Primeau,Jiangxu Li, Tuan-Dung Nguyen,David Mandrus,Yuxuan Cosmi Lin,Yang Zhang

Progress in Quantum Electronics(2024)

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摘要
Unlocking the vast potential of optical sensing technology has long been hindered by the challenges of achieving fast, sensitive, and broadband photodetection at ambient temperatures. In this review, we summarize recent progress in the study of nonlinear photocurrent in topological quantum materials, and its application in broadband photodetection without the use of p–n junction based semiconductor diodes. The intrinsic quadratic transverse current-input voltage relation is used to rectify the alternating electric field from incident radio, terahertz or infrared waves into a direct current, without a bias voltage and at zero magnetic field. We review novel photocurrents in several material systems, including topological Weyl semimetals, chiral crystals, ferroelectric materials, and low dimensional topological insulators. These quantum materials hold tremendous promise for broadband high-frequency rectification and photo-detection, featuring substantial responsivity and detectivity.
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关键词
Photocurrent,Quantum materials,Berry curvature and quantum metric,Broadband photodetection
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