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Journal of Infrared and Millimeter Waves, Volume. 40, Issue 5, 576(2021)

Numerical simulation of high-operating-temperature MWIR HgCdTe APD detectors

Chuan SHEN1, Liao YANG1, Hui-Jun GUO1, Dan YANG1, Lu CHEN1,2、*, and Li HE1
Author Affiliations
  • 1Key Laboratory of Infrared Imaging Materials and Detectors,Shanghai Institute of Technical Physics,Chinese Academy of Sciences,Shanghai 200083,China
  • 2Hangzhou Insitute for Advanced Study,University of Chinese Academy of Sciences,Hangzhou 310024,China
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    [1] Beck J.D., Wan C.-F., Kinch M.A et al. The HgCdTe Electron avalanche photodiode[J]. J. Electron. Mater, 35, 1166-1173(2006).

    [2] Baker I, Duncan S., Copley J. A low noise, laser-gated imaging system for long range target identification[J]. Proc. SPIE5406, 113-144(2004).

    [3] Reine M.B., Marciniec J.W., Wong K.K. et al. HgCdTe MWIR back-illuminated electron-initiated avalanche photodiode arrays[J]. J. Electron. Mater, 36, 1059-1067(2007).

    [5] Perrais G., Gravrand O., Baylet J. et al. Gain and dark current characteristics of planar HgCdTe avalanche photo diodes[J]. J. Electron. Mater, 36, 963-970(2007).

    [6] Asbrock J., Bailey S., Baley D. et al. Ultra-high sensitivity APD based 3D LADAR sensors: linear mode photon counting LADAR camera for the Ultra-Sensitive Detector program[J]. Proc. SPIE6940, 69402O(2008).

    [7] Rothman J., Mollard L., Bosson S. et al. Short-Wave Infrared HgCdTe Avalanche Photodiodes[J]. J. Electron. Mater, 41, 29282936(2012).

    [8] Kinch, M.A.. A theoretical model for the HgCdTe electron avalanche photodiode[J]. J. Electron. Mater, 37, 1453-1459(2008).

    [9] Rothman J., Foubert K., Lasfargues G. et al. High operating temperature SWIR HgCdTe APDs for remote sensing[J]. Proc. Of SPIE Vol. 9254 92540P-9.

    [10] Li Hao, Lin Chun, Zhou Songmin et al. HgCdTe avalanche photodiode FPA[J]. J. Infrared Millim. Waves, 38, 587-590(2019).

    [11] Huijun Guo, Yushun Cheng, Lu Chen et al. The performance of Mid-wave Infrared HgCdTe e-avalanche Photodiodes at SITP[J]. Proc. Of SPIE Vol, 11170-111702M(2019).

    [12] Li Xiongjun, Han Fuzhang, Li Lihuaet. Gain characteristics of MW HgCdTe avalanche photodiodes[J] J. Infrared Millim.Waves, 38, 175-181(2019).

    [13] Qiu W C, Hu W D, Chen L et al. Dark current transport and avalanche mechanism in HgCdTe electron-avalanche photodiodes[J]. IEEE Transactions on Electron Devices, 62, 1926-1931(2015).

    [14] Li Q, He J L, Hu W D et al. Influencing sources for dark current transport and avalanche mechanisms in planar and mesa HgCdTe p-i-n electron-avalanche photodiodes[J]. IEEE Transactions on Electron Devices, 65, 572-576(2018).

    [15] OKUTO Y, CROWELL C.R. Threshold Energy Effect on Avalanche Breakdown Voltage in Semiconductor Junctions[J]. Solid-State Electron, 18, 161-168(1975).

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    Chuan SHEN, Liao YANG, Hui-Jun GUO, Dan YANG, Lu CHEN, Li HE. Numerical simulation of high-operating-temperature MWIR HgCdTe APD detectors[J]. Journal of Infrared and Millimeter Waves, 2021, 40(5): 576

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    Paper Information

    Category: Research Articles

    Received: Nov. 4, 2020

    Accepted: --

    Published Online: Sep. 29, 2021

    The Author Email: Lu CHEN (chenlu@mail.sitp.ac.cn)

    DOI:10.11972/j.issn.1001-9014.2021.05.002

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology