| [1] | Rogalski A. Infrared Detectors[M]. Boca Raton: CRC Press, 2000. |
| [2] | Ashley T, Elliott C T. Nonequilibrium devices for infrared detection [J]. Electronics Letters, 1985, 21: 451-452. |
| [3] | Elliott C T, Gordon N T, White A M. Towards background-limited, room-temperature, infrared photon detector in the 3–13 μm wavelength range [J]. Applied Physics Letters, 1999, 74(19): 2881-2883. doi: 10.1063/1.124045 |
| [4] | Donald A R, Stuart B H, James C Jr, et al. Third-generation imaging sensor system concepts [C]//Proceedings of SPIE, 1999, 3701: 108-117. |
| [5] | Klipstein P, Klin O, Grossman S, et al. High operating temperature XBn-InAsSb bariode detectors [C]//Proceedings of SPIE, 2012, 8268: 82680U. |
| [6] | Espuno L, Pacaud O, Reibel Y, et al. A new generation of small pixel pitch/SWaP cooled infrared detectors [C]//Proceedings of SPIE, 2016, 9648: 96480H. |
| [7] | Lutz H, Breiter R, Eich D, et al. Ultra-compact high-performance MCT MWIR engine [C]//Proceedings of SPIE, 2017, 10177: 101771A. |
| [8] | Knowles P, Hipwood L, Shorrocks N, et al. Status of IR detectors for high operating temperature produced by MOVPE growth of MCT on GaAs substrates [C]//Proceedings of SPIE, 2012, 8451: 845108. |
| [9] | Robinson J, Kinch M, Marquis M, et al. Case for small pixels: system perspective and FPA challenge [C]//Proceedings of SPIE, 2016, 9100: 91000I. |
| [10] | L3HARRIS. 0NYX COMPACT MID-WAVE INFRARED SENSORS [EB/OL]. [2022-09-23]. https://www.l3harris.com/all-capabilities/onyx-infrared-sensor. |
| [11] | Delmas M, Höglund L, Ivanov R, et al. HOT SWaP and HD detectors based on Type-II superlattices at IRnova [C]//Proceedings of SPIE, 2022, 12107: 121070R. |
| [12] | Lee D, Dreiske P, Ellsworth J, et al. Law 19 the ultimate photodiode performance metric [C]//Proceedings of SPIE, 2020, 11407: 114070X. |
| [13] | Chen Huiqing, Shi Chunwei, Hu Shangzheng, et al. Study on p-on-n technology of the MWIR HgCdTe for hot work [J]. Laser & Infrared, 2020, 50(4): 435-438. (in Chinese) doi: 10.3969/j.issn.1001-5078.2020.04.009. |
| [14] | Yang Zhaochen, Zhang Bingjie, Du Yu, et al. A study of manufacture HgCdTe HOT MW infrared detector [J]. Laser & Infrared, 2019, 49(2): 204-208. (in Chinese) doi: 10.3969/j.issn.1001-5078.2019.02.013. |
| [15] | Hu Rui, Deng Gongrong, Zhang Weifeng, et al. Optical-electrical characteristics research on nBnType InAs/GaSb TypeⅡ superlattice infrared detector [J]. Infrared Technology, 2014, 36(11): 863-867. (in Chinese) |
| [16] | Cai Yi. Review and prospect of HgCdTe detectors (Invited) [J]. Infrared and Laser Engineering, 2022, 51(1): 20210988. (in Chinese) doi: 10.3788/IRLA20210988. |
| [17] | Redlich R, Unger R, Walt N V D, et al. Linear compressors: Motor configuration, modulation and system [C]//International Compressor Engineering Conference, 1996: 1129. |
| [18] | Xiong Bojun, Zou Lei, Yang Chaowei, et al. High temperature performance of long-wave p-on-n HgCdTe infrared focal plane detector [J]. Journal of Infrared and Millimeter Waves, 2022, 41(4): 672-677. (in Chinese) doi: 10.11972/j.issn.1001-9014.2022.04.003. |
| [19] | Li Lihua, Xiong Bojun, Yang Chaowei, et al. Research on p-on-n LWIR and VLWIR HgCdTe infrared focal plane detectors technology [J]. Journal of Infrared and Millimeter Waves, 2022, 41(3): 534-539. (in Chinese) doi: 10.11972/j.issn.1001-9014.2022.03.002. |