Journal of Infrared and Millimeter Waves, Volume. 41, Issue 5, 810(2022)
Research on dark current characteristics of InAsSb Barrier-blocking infrared detector
References(18)
[1] Maimon S, Wicks G W. nBn detector, an infrared detector with reduced dark current and higher operating temperature[J]. Applied Physics Letters, 89, 151109(2006).
[2] Philip K, Olga K, Steve G et al. High Operating Temperature XBn-InAsSb Bariode Detectors[C], 8268, 8268U(2012).
[3] Karni Y, Aronov E, Ezra M B et al. Large format 15 μm pitch XBn detector[C], 9070, 90701F(2014).
[4] Shkedy L, Armon E, Avnon E et al. HOT MWIR detector with 5µm pitch[C], 11741, 117410W(2021).
[5] David Z T, Alexander S, Arezou K et al. The emergence of InAs/InAsSb type-II strained layer superlattice barrier infrared detectors[C], 11002, 110020F(2019).
[6] David Z T, Sir B R, Sam A K et al. Develpoment of type-II superlattice long wavelength infrared focal plane arrays for land imaging[J]. Infrared Physics & Technology, 123, 104133(2022).
[7] HUANG Liang, LI Zhi-Feng, CHEN Ping-Ping et al. Far infrared reflection spectra of InAsxSb1-x(x=0-0.4) thin films. Journal of Applied Physics, 113, 213112(2013).
[8] WANG Ting-Ting, XIONG Min, ZHAO Ying-Chun et al. Planar mid-infrared InAsSb photodetector grown on GaAs substrate by MOCVD. Applied Physics Express, 12, 122009(2019).
[9] XIE Hao, LIN Hong-Yu, YANG Wang et al. Liquid phase epitaxy growth and photoluminescence of InAs1-x-ySbxPy epilayer[J]. Materials Research Express, 6, 085912(2019).
[10] SHE Li-Fang, JIANG Jun-Kai, CHEN Wei-Qiang et al. Mid-wave infrared p+-B-n InAs/InAsSb type-II superlattice photodetector with an AlAsSb/InAsSb superlattice barrier[J]. Infrared Physics & Technology, 121, 104015(2022).
[11] CHEN Yun-Feng, WANG Yang, WANG Zhen et al. Unipolar barrier photodetectors based on van der Waals heterostructures[J]. Nature Electronics, 4, 357-363.
[12] DENG Gong-Rong, YANG Wen-Yun, Zhao Peng et al. High operating temperature InAsSb-based mid-infrared focal plane array with a band-aligned compound barrier. Appl.Phys.Lett, 113, 031104(2020).
[13] Humphreys R G. Radiative lifetime in semiconductors for infrared detection. Infrared Physics, 26, 337-342(1986).
[14] Rogalski A, Zwikowski K. Intrinsic carrier concentration and effective masses in InAs1-xSbx. Infrared Phys, 29, 35-42(1989).
[15] Blakemore J S[M]. Semiconductor Statistics, 221(1962).
[16] Shockley W, Read W T. Statistics of the recombinations of holes and electrons. Physical Review, 83, 228(1951).
[17] YE Z H, NU X N, ZHANG H Y et al. Study of dark current for mercury cadmium telluride long. Structures[J]. J. Infrared Millim. Waves, 23, 86-90(2004).
[18] Martyniuk P, Wrobel J, Plis E et al. Performance modeling of MWIR InAs/GaSb/B–Al0. 2
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Dong-Qiong CHEN, Hai-Peng WANG, Qiang QIN, Gong-Rong DENG, Fa-Lan SHANG, Ying TAN, Jin-Cheng KONG, Zan-Dong HU, Yun-Jian TAI, Jun YUAN, Peng ZHAO, Jun ZHAO, Wen-Yun YANG. Research on dark current characteristics of InAsSb Barrier-blocking infrared detector[J]. Journal of Infrared and Millimeter Waves, 2022, 41(5): 810
Paper Information
Category: Research Articles
Received: Apr. 24, 2022
Accepted: --
Published Online: Feb. 6, 2023
The Author Email: Wen-Yun YANG (yangwenyun@olied.com)
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