[1] TAN J, ZHAO Z P, WANG Y H, et al. 12.5 Gb/s multi- channel broadcasting transmission for free-space optical communication based on the optical frequency comb module[J]. Optics express, 2018, 26(2) : 2099-2106.
[2] LIU D C, WANG Z X, LIU J G, et al. Performance analysis of 1-km free-space optical communication system over real atmospheric turbulence channels[J]. Optical engineering, 2017, 56(10):1.
[3] LI L, GENG T W, WANG Y, et al. Free-space optical communication using coherent detection and double adaptive detection thresholds[J]. IEEE photonics journal, 2019, 11(1):1-17.
[4] HUANG Z T, WANG Z F, HUANG M L, et al. Hybrid optical wireless network for future SAGO-integrated communication based on FSO/VLC heterogeneous interconnection[ J]. IEEE photonics journal, 2017, PP(2): 1-1.
[5] ZHANG R C, WANG J M, ZHAO G, et al. Fiber-based free-space optical coherent receiver with vibration compensation mechanism[J]. Optics express, 2013, 21(15):18434-18441.
[6] ZHOU H T, AI Y, CHEN C J, et al. Free space optical communication experiments on the vibration platform[ C]//2015 Annual Meeting of Optical Engineering Society of China, May 5-7, 2015, Beijing, China. Washington:SPIE, 2015:9674.
[7] ZHOU D Y, LOPRESTI P G, REFAI H H. Enlargement of beam coverage in FSO mobile network[J]. Journal of lightwave technology, 2011, 29(10):1583-1589.
[8] HAHN D V, BROWN D M, ROLANDER N W, et al. Fiber optic bundle array wide field-of-view optical receiver for free space optical communications[J]. Optics letters, 2010, 35(21):3559-3561.
[9] LI M, LIN S, LI S M, et al. Suppression of fluctuation on the angle of arrival for freespace optical communication[ J]. Optoelectronics letters, 2012, 8(4):297-300.
[10] SEVINCER A, BILGI M, YUKSEL M, et al. Prototyping multi-transceiver free-space optical communication structures[C]//2010 IEEE International Conference on Communications, May 23-27, 2010, Cape Town, South Africa. New York:IEEE, 2010:1-5.
[11] JUAN C V, JORGE G, SUAT T, et al. Optical antenna for a visible light communications receiver[C]//2018 Society of Photo-Optical Instrumentation Engineers (SPIE) Conference, January 27-February 1, 2018, San Francisco, California, USA. Washington:SPIE, 2018: 10559.
[12] STRüMPEL C, MCCANN M, BEAUCARNE G, et al. Modifying the solar spectrum to enhance silicon solar cell efficiency-an overview of available materials[J]. Solar energy materials & solar cells, 2007, 91(4): 238-249.
[13] ANDREWS L C, PHILLIPS R L, YOUNG C Y. Laser beam scintillation with applications[M/OL]. Washington: SPIE Press, 2001:67[2021-9-13]. https://www. spiedigitallibrary.org/ebooks/PM/Laser-Beam-Scintillation- with-Applications/eISBN-9780819478511/10. 1117/3.412858.