[1] [1] Xu Longdao. Dictionary of physics[M]. Beijing: Science Press, 2007

[3] [3] Shu Xianrong, He Bingfa, Gao Tie. Phased array radar antennas[M]. Beijing: National Defense Industry Press, 2007

[4] McManamon P F, Bos P J, Escuti M J, et al. A review of phased array steering for narrow-band electrooptical systems[J]. Proceedings of the IEEE, 97, 1078-1096(2009).

[5] Bridges W B, Brunner P T, Lazzara S P, et al. Coherent optical adaptive techniques[J]. Applied Optics, 13, 291-300(1974).

[6] Meinel A B. Aperture synthesis using independent telescopes[J]. Applied Optics, 9, 2501-2504(1970).

[9] Yoo B W, Megens M, Chan T, et al. Optical phased array using high contrast gratings for two dimensional beamforming and beamsteering[J]. Optics Express, 21, 12238-12248(2013).

[10] McManamon P F, Dorschner T A, Corkum D L, et al. Optical phased array technology[J]. Proceedings of the IEEE, 84, 268-298(1996).

[11] [11] Goodman J W. Introduction to Fourier optics[M]. 2nd ed. New Yk: McGrawHill, 1996.

[12] [12] Reynolds G O, Develis J B, Parrent Jr G B, et al. The new physical optics notebook: tutials in Fourier optics[M]. Bellingham, WA: SPIE Optical Engineering Press, 1989.

[13] Goltsos W C, Holz M. Agile beam steering using binary optics microlens arrays[J]. Optical Engineering, 29, 1392-1397(1990).

[14] Watson E A. Analysis of beam steering with decentered microlens arrays[J]. Optical Engineering, 32, 2665-2670(1993).

[15] [15] Watson E A, Whitaker W E, Brewer C D, et al. Implementing optical phased array beam steering with caded microlens arrays[C]Proceedings, IEEE Aerospace Conference. IEEE, 2002: 14291436.

[16] Shi Lei, Shi Jianru, McManamon P F, et al. Design considerations for high efficiency liquid crystal decentered microlens arrays for steering light[J]. Applied Optics, 49, 409-421(2010).

[17] [17] Flood K M, Cassarly W J, Sigg C, et al. Continuous wideangle beam steering using translation of binary microlens arrays a liquidcrystal phased array[C]Proceedings of SPIE 1211, Computer Optically Fmed Holographic Optics. 1990: 296304.

[18] Motamedi M E, Andrews A P, Gunning III W J, et al. Miniaturized micro-optical scanners[J]. Optical Engineering, 33, 3616-3623(1994).

[19] Akatay A, Ataman C, Urey H. High-resolution beam steering using microlens arrays[J]. Optics Letters, 31, 2861-2863(2006).

[20] Akatay A, Urey H. Design and optimization of microlens array based high resolution beam steering system[J]. Optics Express, 15, 4523-4529(2007).

[21] Gokce S K, Holmstrom S, Hibert C, et al. Two-dimensional MEMS stage integrated with microlens arrays for laser beam steering[J]. Journal of Microelectromechanical Systems, 20, 15-17(2011).

[22] [22] Zhou Chongxi, Xie Weimin, Dong Xiaochun, et al. Optimal design of nonisofocal microlens arrays f twodimensional laser scanning[C]11th National Annual Conference on Electron Beam, Ion Beam Photon Beam. Chinese Institute of Electronics, 2001: 178181

[23] [23] Jin Guofan. Binary optics[M]. Beijing: National Defense Industry Press, 1998

[25] [25] Dong Shan. Research on beam steering with microlens arrays[D]. Wuhan: Huazhong University of Science Technology, 2007

[26] [26] Liu Ran. Research on microoptical scanner[D]. Wuhan: Huazhong University of Science Technology, 2007

[28] Yang Xu, Geng Chao, Li Xiaoyang, et al. Theory analysis and experimental demonstration of a microlens array scanner with Kepler structure[J]. Applied Optics, 59, 10754-10760(2020).

[29] Yang Xu, Geng Chao, Li Feng, et al. High-resolution beam scanning technique with microlens array and adaptive fiber-optics collimator[J]. Optics Express, 29, 359-367(2021).

[30] [30] Krogmann D, Tholl H D. Infrared microoptics technologies[C]Proceedings of SPIE 5406, Infrared Technology Applications XXX. 2004: 121132.

[31] [31] Bernard W J. Technology demonstrat f groundbased surveillance missile warning[C]Proceedings of SPIE 3436, Infrared Technology Applications XXIV. 1998: 494504.

[32] [32] Wang Yao. Application research of microlens array in scanning optical system[D]. Tianjin: Tianjin University, 2018

[33] [33] Rungenhagen M, Kunz M, Romasew E, et al. Monostatic Ladar demonstrat with microoptical bidirectional beam control[C]Proceedings of SPIE 7483, Technologies f Optical Countermeasures VI. 2009: 74830Q.

[34] Duparré J, Götz B, Göring R. Micro-optical 1×4 fiber switch for multimode fibers with 600-μm core diameters[J]. Applied Optics, 42, 6889-6896(2003).

[35] Duparré J, Radtke D, Dannberg P. Implementation of field lens arrays in beam-deflecting microlens array telescopes[J]. Applied Optics, 43, 4854-4861(2004).

[36] Bogaert L, Meuret Y, Roelandt S, et al. Demonstration of a multiview projection display using decentered microlens arrays[J]. Optics Express, 18, 26092-26106(2010).

[37] Johnsen H J D, Aksnes A, Torgersen J. High-performance stationary solar tracking through multi-objective optimization of beam-steering lens arrays[J]. Optics Express, 28, 20503-20522(2020).

[38] [38] McDearmon G F, Flood K M, Finlan J M. Comparison of conventional microlensarray agile beam steerers[C]Proceedings of SPIE 2383, MicroOpticsMicromechanics Laser Scanning Shaping. 1995: 167178.

[39] [39] Rabinovich W S, Goetz P G, Pruessner M, et al. Free space optical communication link using a silicon photonic optical phased array[C]Proceedings of SPIE 9354, FreeSpace Laser Communication Atmospheric Propagation XXVII. 2015: 93540B.

[40] Gibson J L, Duncan B D, Watson E A, et al. Wide-angle decentered lens beam steering for infrared countermeasures applications[J]. Optical Engineering, 43, 2312-2321(2004).

[41] Khorasaninejad M, Chen Weiting, Devlin R C, et al. Metalenses at visible wavelengths: diffraction-limited focusing and subwavelength resolution imaging[J]. Science, 352, 1190-1194(2016).

[42] Lin Renjie, Su V C, Wang Shuming, et al. Achromatic metalens array for full-colour light-field imaging[J]. Nature Nanotechnology, 14, 227-231(2019).

[43] Shi Tan, Wang Yujie, Deng Zilan, et al. All-dielectric kissing-dimer metagratings for asymmetric high diffraction[J]. Advanced Optical Materials, 7, 1901389(2019).

[44] Cao Guiyuan, Gan Xiaosong, Lin Han. An accurate design of graphene oxide ultrathin flat lens based on Rayleigh-Sommerfeld theory[J]. Opto-Electronic Advances, 1, 180012(2018).

[45] Zhu Xufeng, Fang Wei, Lei Jian, et al. Supercritical lens array in a centimeter scale patterned with maskless UV lithography[J]. Optics Letters, 45, 1798-1801(2020).