[1] WANG Xiaoyong. Development and prospect of space optical technology[J]. Spacecraft Recovery & Remote Sensing, 39, 79-86(2018).

[2] ZHOU Feng, ZHENG Guoxian, SU Yun. Development of optical remote sensors of deep space exploration abroad and its enlightenment[J]. Spacecraft Recovery & Remote Sensing, 33, 16-22(2012).

[3] TIAN Jun, ZHAO Haibin. The review of the YORP effect for asteroids[J]. Progress in Astronomy, 39, 277-297(2021).

[4] JIANG Haoxuan. Studies of thermophysical parameters and distribution CharaCteriStiCS of asteroid families based on infrared observations[D](2020).

[5] YANG Fuzhen. Optical design and prototype of compact VIS-IR imaging spectrometer for deep space exploration[D](2020).

[6] MA Xingzhao, TANG Libin, ZHANG Yuping et al. Research progress of silicon-based BIB infrared detector[J]. Infrared Technology, 45, 1-14(2023).

[7] PAN Changyi. Germanium-based blocked impurity band infrared detector and its photoelectric properties[D](2021).

[8] LIAO Kaisheng, LIU Xihui, HUANG Liang et al. Blocked impurity band infrared detector for astronomy[J]. SCIENTIA SINICA Physica, 44, 360-367(2014).

[9] XIONG X, CHIANG K, ESPOSITO J et al. MODIS on -orbit calibration and characterization[J]. Metrologia, 40, S89(2003).

[10] THOME K, LUNSFORD A, MONTANARO M et al. Calibration plan for the thermal infrared sensor on the landsat data continuity mission[C], 804813-804819(2011).

[11] MONTANARO M, LUNSFORD A, TESFAYE Z et al. Radiometric calibration methodology of the landsat 8 thermal infrared sensor[J]. Remote Sensing, 6, 8803-8821(2014).

[12] BARSI J, SCHOTT J, HOOK S et al. Landsat -8 Thermal infrared sensor (TIRS) vicarious radiometric calibration[J]. Remote Sensing, 6, 11607-11626(2014).

[13] LIU Sha, WANG Zhantao, WANG Tao et al. Research on a type of IR dynamic simulation drone based on extend blackbody[J]. Journal of Astronautic Metrology and Measurement, 37, 10-17(2017).

[14] HU Youhua, HAO Xiaopeng, SIMA Ruiheng et al. Development of large-aperture and high-emissivity surface blackbody radiation source[J]. Acta Metrologica Sinica, 42, 314-320(2021).

[15] XIA Tianyuan, SHUAI Hongjin, QIU Yafeng. Design of infrared target system for outfield[J]. Journal of Applied Optics, 41, 1067-1073(2020).

[16] SHENG Yicheng, Xiong DUN, JIN Weiqi et al. Review of on-orbit radiometric calibration technology used in infrared remote sensors[J]. Infrared and Laser Engineering, 48, 18-30(2019).

[17] JIN Libing, LI Xiaoman, LIAN Minlong et al. Analysis of the in-orbit radiation calibration of SWIR remote sensing system combined with blackbody and star[J]. Infrared Technology, 45, 123-128(2023).

[18] SHINOZAKI K, NISHIKAWA I, TANAKA K et al. Cryogenic radiator with cavity-in-cavity structure for space missions[C], 502, 012070(2019).

[19] GHOSH G[M]. Handbook of optical constants of solids(1998).

[20] ZHANG Xiaopeng, GUO Jingwei. Uncooled infrared focal plane temperature control system based on ADN8830[J]. Electro-Optic Technology Application, 26, 1-4(2011).

[21] FU Zhihong. A method of observing and controlling temperature of the black-body calibration device in infrared radiation camera[J]. Space Electronic Technology, 13, 76-80(2016).

[22] LIU Lifei, LV Weixing, WU Chao et al. Constant temperature control system based on TEC and PID[J]. Computer Measurement & Control, 30, 137-144(2022).

[23] REN Qigan, TAN Qinhong. Design of temperature control system for uncooled focal plane detector based on ADN8830[J]. Chinese Journal of Sensors and Actuators, 23, 1718-1721(2010).

[24] JIA Chengan, YE Lin, GE Junfeng et al. A digital PID temperature control system based on STM32 and ADS1248[J]. Transducer and Microsystem Technologies, 34, 103-105(2015).

[25] HAO Xiaopeng, SONG Jian, SUN Jianping et al. Vacuum radiance temperature national standard facility for infrared remote sensors of Chinese Fenyun meteorological satellites[J]. Optics and Precision Engineering, 23, 1845-1851(2015).

[26] SONG Jian, HAO Xiaopeng, YUAN Zundong et al. Blackbody source emissivity measurement method based on controlling surroundings radiation[J]. Chinese Journal of Lasers, 42, 269-275(2015).

[27] SONG Jian. Study of measurement principle and key technology of on-orbit calibration in situ blackbody[D](2015).

[28] LU Jin. Research of scene-based infrared image non-uniformity correction algorithm[D](2012).

[29] ZHONG Ying. Research on non--uniformity correction algorithms for IRFPA[D](2016).

[30] TIAN Qijie, CHANG Songtao, QIAO Yanfeng et al. Radiometric calibration based on low-temperature area blackbody for infrared systems with high dynamic range[J]. Acta Photonica Sinica, 46, 0412003(2017).

[31] HOU Liangke. Research on nonuniformity correction algorithm for infrared[D](2015).