用于宽带光探测的量子材料中的非线性光电流

IF 7.4 1区 物理与天体物理 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Yulin Shen , Louis Primeau , Jiangxu Li , Tuan-Dung Nguyen , David Mandrus , Yuxuan Cosmi Lin , Yang Zhang
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引用次数: 0

摘要

长期以来,在环境温度下实现快速、灵敏和宽带光电探测的挑战一直阻碍着人们释放光传感技术的巨大潜力。在这篇综述中,我们总结了拓扑量子材料中非线性光电流研究的最新进展,及其在不使用基于 p-n 结半导体二极管的宽带光探测中的应用。利用本征二次横向电流-输入电压关系,可将入射无线电波、太赫兹波或红外波产生的交变电场整流为直流电,无需偏置电压,且磁场为零。我们回顾了几种材料系统中的新型光电流,包括拓扑韦尔半金属、手性晶体、铁电材料和低维拓扑绝缘体。这些量子材料在宽带高频整流和光电探测方面前景广阔,具有很高的响应度和探测度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nonlinear photocurrent in quantum materials for broadband photodetection

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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来源期刊
Progress in Quantum Electronics
Progress in Quantum Electronics 工程技术-工程:电子与电气
CiteScore
18.50
自引率
0.00%
发文量
23
审稿时长
150 days
期刊介绍: Progress in Quantum Electronics, established in 1969, is an esteemed international review journal dedicated to sharing cutting-edge topics in quantum electronics and its applications. The journal disseminates papers covering theoretical and experimental aspects of contemporary research, including advances in physics, technology, and engineering relevant to quantum electronics. It also encourages interdisciplinary research, welcoming papers that contribute new knowledge in areas such as bio and nano-related work.
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