OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

红外与毫米波学报 2015

p-GaAs同质结太赫兹探测器的优化与性能

张月蘅,沈文忠,王天盟,钱飞

Keywords: p-GaAs同质结太赫兹探测器谐振器增强量子效率探测率

Full-Text Cite this paper Add to My Lib

Abstract:

从提高p-GaAs同质结太赫兹探测器量子效率出发, 在考虑温度和偏压等参数的影响后, 优化了谐振腔增强的p-GaAs同质结太赫兹探测器的材料及结构参数, 使探测器的量子效率提高到了17%.并计算了探测器的响应率、探测率和偏压、温度、光谱频率的关系, 得到了最佳工作偏压(10~40mV)、最佳工作温度(<8K)和最大探测率(4.1×1010cm Hz1/2/W).而通过施加一对匹配的反射镜来构造谐振腔的设计, 所能获得的极限量子效率为26%, 极限探测率和响应率分别为5.7×1010cm Hz1/2/W、25.9A/W

References

[1]	1YAO Jian-Quan. Introduction of THz-wave and its applications [J]. Journal of Chongqing University of Posts and Telecommunications(Natural Science)(姚建铨.太赫兹技术及其应用.重庆邮电大学学报(自然科学版)), 2010, 22(6): 703-707.
[2]	2WEI Hua. The prospects for THz detection techniques development [J]. Infrared Technology(魏华.太赫兹探测技术发展与展望.红外技术), 2010, 32(4): 231-234.
[3]	3CAO Jun-Cheng. Semiconductor terahertz sources, detectors and applications[M]. Beijing: Science Press(曹俊诚.半导体太赫兹源、探测器与应用.北京: 科学出版社), 2012: 5-7.
[4]	4YANG Guang-Kun, YUAN Bin, XIE Dong-Yan, et al. Analysis on the use of THz technology in the military application [J]. Laser & Infrared(杨光鲲,袁斌,谢东彦等.太赫兹技术在军事领域的应用.激光与红外), 2011, 41(4): 376-380.
[5]	5SHEN Wen-Zhong. Novel Homojunction Far-infrared Detectors [J]. J.InfraredMillim.Waves(沈文忠.新型同质结构远红外探测器.红外与毫米波学报), 2000, 19(3): 161-168.
[6]	6Perera A G U,Yuan H X,Gamage S K, et al. GaAs multilayer p+-i homojunction far-inrared detectors [J]. J.Appl.Phys, 1997, 81(7): 3316-3319.
[7]	7SHEN Wen-Zhong,Perera A G U Francombe, M H, et al. Effect of emitter layer concentration on the performance of GaAs p-i homojunction far-infrared detectors: a comparison of theory and experiment [J]. IEEE Trans. Electron Devices, 1998, 45(8): 1671-1677.
[8]	8ZHENG Mei-Mei, ZHANG Yue-Heng, SHEN Wen-Zhong. Performance optimization of resonant cavity enhanced n-GaAshomojunction far-infrared detectors: A theoretical study [J]. J.Appl.phys, 2009, 105(8): 4515-4520.
[9]	9DENG Guo-Gui, ZHANG Yue-Heng, SHEN Wen-Zhong. Design of a top mirror for the n-GaAshomojunction far-infrared/terahertz detectors [J]. J.Appl.phys, 2010, 108(7): 4509-4513.
[10]	10A G U Perera, H X Yuan, M H Francombe. Homojunction internal photoemission far-infrared detectors: Photoresponse performance analysis [J]. J.Appl.phys, 1995, 77(2): 915-924.
[11]	11SHEN Wen-Zhong, A G U.Perera, LIU Hui-Chun, et al. Bias effects in high performance GaAshomojunction far-infrared detectors [J]. Appl.phys.lett, 1997, 71(18): 2677-2679.
[12]	12Yuan H X,Perera A G U, Dark current analysis of Si homojunction interfacial work function internal photoemission far-infrared detectors [J]. Appl.phys.lett, 1995, 66(17): 2262-2264.
[13]	13Harald Schneider, LIU Hui-Chun. Quantum well Infrared photodetectors: Physics and Applications[M]. New York: Springer Publishing Company, 2007, 71-72.
[14]	14Blakemore J S. Semiconducting and other major properties of gallium arsenide [J]. J.Appl.phys, 1982, 53(R123).

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133