[1] A Rogalski. Progress in focal plane array technologies. Progress in Quantum Electronics, 36, 342-473(2012).
[2] P Martyniuk, J Antoszewski, M Martyniuk et al. New concepts in infrared photodetector designs. Applied Physics Reviews, 1, 041102(2014).
[3] A Nedelcu, C Bonvalot, R Taalat et al. III-V detector technologies at Sofradir: Dealing with image quality. Infrared Physics & Technology, 94, 273-279(2018).
[4] A Rogalski, P Martyniuk, M Kopytko. InAs/GaSb type-II superlattice infrared detectors: Future prospect. Applied physics reviews, 4, 031304(2017).
[5] D Z Ting, B Rafol, S A Keo et al. InAs/InAsSb type-II superlattice mid-wavelength infrared focal plane array with significantly higher operating temperature than InSb. IEEE Photonics Journal, 10, 1-6(2018).
[6] M Billaha, M K Das. Performance analysis of AlGaAs/GaAs/InGaAs-based asymmetric long-wavelength QWIP. Applied Physics A, 125, 1-7(2019).
[7] R K Bhan, V Dhar. Recent infrared detector technologies, applications, trends and development of HgCdTe based cooled infrared focal plane arrays and their characterization. Opto-Electronics Review, 27, 174-193(2019).
[8] N Suzuki, K Sawai, S Adachi. Optical properties of PbSe. Journal of applied physics, 77, 1249-1255(1995).
[9] G Vergara, M Montojo, M Torquemada et al. Polycrystalline lead selenide: the resurgence of an old infrared detector. Opto-Electronics Review, 15, 110-117(2007).
[10] H Peng, J H Song, M G Kanatzidis et al. Electronic structure and transport properties of doped PbSe. Physical Review B, 84, 125207(2011).
[11] M C Gupta, J T Harrison, M T Islam. Photoconductive PbSe thin films for infrared imaging. Materials Advances, 2, 3133-3160(2021).
[12] M T Rodrigo, F J Sánchez, M C Torquemada et al. Polycrystalline lead selenide x–y addressed uncooled focal plane arrays. Infrared Physics & Technology, 44, 281-287(2003).
[13] F J Sánchez, M T Rodrigo, G Vergara et al. Progress on monolithic integration of cheap IR FPAs of polycrystalline PbSe, 5783, 441-447(2005).
[14] K Green, S S Yoo, C Kauffman. Lead salt TE-cooled imaging sensor development, 9070, 430-436(2014).
[15] J Zhu, H Xu, S Ma et al. Ultrahigh-Speed Mid-Infrared Photodetectors With 2-D Electron Gas in a CdTe/PbTe Heterojunction. IEEE Transactions on Electron Devices, 67, 2432-2436(2020).
[16] J Zhu, H Xu, Z Wang et al. Lateral photovoltaic mid-infrared detector with a two-dimensional electron gas at the heterojunction interface. Optica, 7, 1394-1401(2020).
[17] Y Ren, Y Li, W Li et al. High Sensitivity and Fast Response Infrared Detector Fabricated with the Bi2Se3-PbSe Heterojunction. Applied Surface Science, 152578(2022).
[18] J Qiu, Y Liu, Z Cai et al. CdSe: In Mid-infrared transparent conductive films prospering uncooled PbSe/CdSe heterojunction photovoltaic detectors. Materials Advances, 3, 1079-1086(2022).
[19] N Suzuki, K Sawai, S Adachi. Optical properties of PbSe. Journal of applied physics, 77, 1249-1255(1995).
[20] Han-Lun XU, Zheng-Lai WANG, Xin-Min XU et al. A focal plane detector readout the array of non-uniformity.
[22] Bo-Liang CHEN, Xiang-Yang LI. Infrared imaging detectors for space applications.