Dark current mechanism of terahertz quantum-well photodetectors

Jia J.Y.; Gao J.H.; Hao M.R.; Wang T.M.; Shen W.Z.; Zhang Y.H.; Cao J.C.; Guo X.G.; Schneider H.

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Dark current mechanism of terahertz quantum-well photodetectors

机译：太赫兹量子阱光电探测器的暗电流机理

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Dark current mechanisms of terahertz quantum-well photodetectors (THz QWPs) are systematically investigated experimentally and theoretically by measuring two newly designed structures combined with samples reported previously. In contrast to previous investigations, scattering-assisted tunneling dark current is found to cause significant contributions to total dark current. A criterion is also proposed to determine the major dark current mechanism at different peak response frequencies. We further determine background limited performance (BLIP) temperatures, which decrease both experimentally and theoretically as the electric field increases. This work gives good description of dark current mechanism for QWPs in the THz region and is extended to determine the transition fields and BLIP temperatures with response peaks from 3 to 12 THz.

机译：太赫兹量子阱光电探测器（THz QWP）的暗电流机理是通过测量两个新设计的结构并结合先前报道的样品进行系统地实验和理论研究的。与以前的研究相反，发现散射辅助隧穿暗电流对总暗电流造成了重大贡献。还提出了确定不同峰值响应频率下主要暗电流机制的标准。我们进一步确定背景受限性能（BLIP）温度，该温度在实验和理论上都随着电场的增加而降低。这项工作很好地描述了THz区域中QWP的暗电流机制，并扩展到确定响应峰为3至12 THz的过渡场和BLIP温度。

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来源
《Journal of Applied Physics 》 |2014年第15期| 1-6| 共6页
作者
Jia J.Y.; Gao J.H.; Hao M.R.; Wang T.M.; Shen W.Z.; Zhang Y.H.; Cao J.C.; Guo X.G.; Schneider H.;
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作者单位

Key Laboratory of Artificial Structures and Quantum Control (Ministry of Education), Department of Physics and Astronomy, Shanghai Jiao Tong University, Shanghai 200240, China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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专利

1. Dark current mechanism of terahertz quantum-well photodetectors [J] . J. Y. Jia, J. H. Gao, M. R. Hao, Journal of Applied Physics . 2014 ,第15期

机译：太赫兹量子阱光电探测器的暗电流机理
2. Carrier scattering approach to the origins of dark current in mid and far-infrared (terahertz) quantum-well intersubband photodetectors(QWLPs) [J] . Etteh N.E.I., Harrison P. IEEE Journal of Quantum Electronics . 2001 ,第5期

机译：载波散射法解决中远红外（太赫兹）量子阱子带间光电探测器（QWLP）中暗电流的起源
3. Influence of quantum capture and tunneling mechanisms on the dark current of bound-to-continuum quantum-well infrared photodetectors [J] . Chu C.H., Hung C.I. IEEE Photonics Technology Letters . 1997 ,第9期

机译：量子捕获和隧穿机制对束缚于连续谱量子阱红外光电探测器暗电流的影响
4. Dark current mechanism and the cause of the current-voltage asymmetry in quantum-well intersubband photodetectors [C] . Hui C. Liu, National Research Council Canada, Ottawa, Physical Concepts and Materials for Novel Optoelectronic Device Applications II . 1993

机译：量子阱子带间光电探测器中的暗电流机制和电流-电压不对称的原因
5. Mid-Infrared InAs-Based Photodetectors: Effects of Processing and Structures on Dark Currents [D] . Du, Xiaoyu. 2018

机译：基于中红外线INA的光电探测器：处理和结构对暗电流的影响
6. Low Dark-Current High Current-Gain of PVK/ZnO Nanoparticles Composite-Based UV Photodetector by PN-Heterojunction Control [O] . Sang-Won Lee, Seung-Hwan Cha, Kyung-Jae Choi, 2016

机译：PN-异质结控制的PVK / ZnO纳米粒子复合紫外光电探测器的低暗电流高电流增益
7. Carrier scattering approach to the origins of dark current in mid- and far-infrared (terahertz) quantum-well intersubband photodetectors (QWIPs)ud [O] . Etteh N.E.I., Harrison P. 2001

机译：载波散射方法研究中，远红外（太赫兹）量子阱子带光电探测器（QWIps）中暗电流的起源
8. Zero-Bias Offsets in the Low-Temperature Dark Current of Quantum-Well Infrared Photodetectors [R] . Singh, A. , Cardimona, D. A. 1999

机译：量子阱红外光电探测器低温暗电流中的零偏置偏移

Dark current mechanism of terahertz quantum-well photodetectors

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