Researching | High temperature performance of long-wave p-on-n HgCdTe infrared focal plane detector

Journals >Journal of Infrared and Millimeter Waves >Volume 41 >Issue 4 >Page 672 > Article

Journal of Infrared and Millimeter Waves
Vol. 41, Issue 4, 672 (2022)

High temperature performance of long-wave p-on-n HgCdTe infrared focal plane detector

Bo-Jun XIONG¹, Lei ZOU², Chao-Wei YANG¹, Qiang QIN¹, Jin-Cheng KONG¹, and Li-Hua LI^1、*

Author Affiliations

¹Kunming Institute of Physics，Kunming 650223，China

²Chinese People's Liberation Army 63963，Beijing 100071，China

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DOI: 10.11972/j.issn.1001-9014.2022.04.003 Cite this Article

Bo-Jun XIONG, Lei ZOU, Chao-Wei YANG, Qiang QIN, Jin-Cheng KONG, Li-Hua LI. High temperature performance of long-wave p-on-n HgCdTe infrared focal plane detector[J]. Journal of Infrared and Millimeter Waves, 2022, 41(4): 672 Copy Citation Text

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References

[1] Jian-Rong YANG. Material physics and technology of mercury cadmium telluride, 428-430(2012).

[2] P Martyniuk. HOT HgCdTe infrared detectors(2014).

[3] L O Bubulac, D S Lo, W E Tennant et al. P on n ion-implanted junctions in liquid phase epitaxy HgCdTe layers on CdTe substrates. Applied Physics Letters, 50, 1586-1588(1987).

[4] N Baier, L Mollard, O Gravrand et al. MCT planar p-on-n LW and VLW IRFPAs. Proceedings of Spie the International Society for Optical Engineering, 8704, 87042P(2013).

[5] L Mollard, G Bourgeois, C Lobre et al. p-on-n HgCdTe infrared focal-plane arrays: From short-wave to very-long-wave infrared. Journal of Electronic Materials, 43, 802-807(2014).

[6] Y Reibel, A Rouvie, A Nedelcu et al. Large format, small pixel pitch and hot detectors at SOFRADIR. Proceedings of SPIE - The International Society for Optical Engineering, 8896, 265-269(2013).

[7] Lian-Jun ZHOU, Fu-Zhong HAN, Pi-Ji BAI et al. Review of HOT MW infrared detector using MCT technology. Infrared Technology, 39, 116-124(2017).

[8] P Castelein, N Baier, O Gravrand et al. Latest developments in the p-on-n HgCdTe architecture at DEFIR(2014).

[9] AIM Infrarot-Module GmbH. HiPIR-1280M-MCT MWIR 1280×1024 15μm Pitch IDCA. http://www.aim-ir.com/fileadmin/files/Data_Sheets_Security/Modules/02_MWIR_IDCA/HiPIR 1280M/ 2018_AIM_datenblatt_A4_HiPIR-1280M_engl.pdf

[10] AIM Infrarot-Module GmbH. HiPIR-Engine HOT MCT 1024×768 10μm PITCH IR ENGINE. http://www.Aimir.com/fileadmin/files/Data_Sheets_Security/Modules/01_Hot Cube/ 2018_ AIM_datenblatt_A4_HOT-MCT-1024_engl.pdf

[11] H Figgemeier, S Hanna, D Eich et al. State of the art of AIM LWIR and VLWIR MCT 2D focal plane detector arrays for higher operating temperatures(2016).

[12] H Figgemeier, S Hanna, D Eich et al. State-of-the-art MCT photodiodes for cutting-edge sensor applications by AIM(2017).

[13] G L Hansen, J L Schmit, T N Casselman. Energy gap versus alloy composition and temperature in Hg1-xCdxTe. Journal of Applied Physics, 53, 7099-7101(1982).

[14] L Rubaldo, A Brunner, P Guinedor et al. Recent advances in Sofradir IR on II-VI photodetectors for HOT applications(2016).

[15] W E Tennant, D Lee, M Zandian et al. MBE HgCdTe technology: A very general solution to IR detection, described by rule 07, a very convenient heuristic. J. Electron. Mater., 37, 1406-1410(2008).

[16] Bo-Liang CHEN, Xiang-Yang LI. Space infrared imaging detector, 7, 50-51(2016).

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Bo-Jun XIONG, Lei ZOU, Chao-Wei YANG, Qiang QIN, Jin-Cheng KONG, Li-Hua LI. High temperature performance of long-wave p-on-n HgCdTe infrared focal plane detector[J]. Journal of Infrared and Millimeter Waves, 2022, 41(4): 672

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