[1] Jiao Jianchao, Su Yun, Wang Baohua, et al. Development and application of GEO membrane based diffraction optical imaging system[J]. Space International, 6, 49-55(2016).

[2] Zhu Jinyi, Xie Yongjun. Large aperture lidar receiver optical system based on diffractive primary lens[J]. Infrared and Laser Engineering, 46, 0518001(2017).

[3] Hu Xuan, Li Daojing. Space-based synthetic aperture LiDAR system with 10 m diffractive aperture[J]. Chinese Journal of Lasers, 45, 0510010(2018).

[4] Li Daojing, Hu Xuan, Zhou Kai, et al. Synthetic aperture Lidar imaging detection based on conformal diffractive optical system[J]. Acta Optical Sinica, 40, 0428001(2020).

[5] Ren Zhibin, Hu Jiasheng, Tang Honglang, et al. Study on chromatic aberration correction of 10 meter large aperture membrane diffractive primary lens[J]. Acta Optica Sinica, 46, 422004(2017).

[6] Wang Bingxue, Zhang Qiheng, Chen Changbin, et al. A mathematical model for operating range of a staring IR search and track system[J]. Opto-Electronic Engineering, 031, 8-11(2004).

[7] [7] Kuang Yaowu. Study on the optical system of dualmode infraredlaser seeker[D]. Harbin: Harbin Institute of Technology, 2009. (in Chinese)

[8] Luo Zhenying, Bai Lu, Ning Hui, et al. Analysis of operating range of infrared detection system based on NETD[J]. Infrared, 38, 27-30(2017).

[9] Wu Limin, Zhou Feng, Wang Huaiyi. Study on the relationship between the infrared detectors background limit detectivity and the optical systems work temperature[J]. Spacecraft Recovery & Remote Sensing, 31, 36-41(2010).

[10] Wang Xiaojian, Liu Yang, Chen Lei, et al. Discussion on the operation range of the infrared imaging system for point target expressed by NETD and ΔT[J]. Infrared and Laser Engineering, 37, 2(2008).

[11] [11] Skolnik M I. Radar Hbook[M]. New Yk: The McGrawHill Companies Inc, 2010.

[12] Nan Rendong, Jiang Peng. 500 m aperture spherical radio telescope (FAST)[J]. Journal of Mechanical Engineering, 53, 1-3(2017).

[13] [13] EVN Global VLBI results images[EBOL]. [20191213]. http:old.evlbi.ggalleryimages.html.

[14] Li Daojing, Du Jianbo, Ma Meng, et al. System analysis of spaceborne aperture ladar[J]. Infrared and Laser Engineering, 45, 262-269(2016).

[15] Barber Z W, Dahl J R. Synthetic aperture ladar imaging demonstrations and information at very low return levels[J]. Applied Optics, 53, 5531-5537(2014).

[16] Ke X, Chen J. Experimental investigation on non-optical heterodyne detection technology of 1 km atmospheric laser communication system[J]. Journal of Applied Sciences, 7(2014).

[17] [17] Wang Hai. Design of a homodyne BPSK system f coherent optical communication[D]. Chengdu: University of Electronic Science Technology of China, 2009.

[18] [18] Yaacobi A, Sun J, Mesco M, et al. Intergrated phased array f wideangle beam steering[J]. Optics Letters, 2014, 39(15): 45754578.

[19] Jie Sun, Erman Timurdogan, Ami Yaacobi, et al. Large-scale nanophotonic phased array[J]. Nature, 493.7431, 195-199(2013).