[1] Zhao X W, Zhang Y, Qin P, et al. Key technologies and development trends for a space-air-ground integrated wireless optical communication network [J]. Acta Electronica Sinica, 2022, 50(1): 1-17. (in Chinese)
[2] Karp S. Optical communications between underwater and above surface (satellite) terminals [J]. IEEE Transactions on Communications, 1976, 24(1): 66-81. doi:  10.1109/TCOM.1976.1093200
[3] Guan B, Yu H Y, Song W, et al. Wave structure function and long-exposure MTF for Gaussian-beam waves propagating in anisotropic maritime atmospheric turbulence [J]. Applied Sciences, 2020, 10(16): 5484. doi:  10.3390/app10165484
[4] Zhao L, Xu Y G, Yang S K. Statistical properties of partially coherent vector beams propagating through anisotropic atmospheric turbulence [J]. Optik, 2021, 227: 166115. doi:  10.1016/j.ijleo.2020.166115
[5] Baykal Y, Luo Y J, Ji X L. Scintillations of higher order laser beams in anisotropic atmospheric turbulence [J]. Applied Optics, 2016, 55(33): 9422. doi:  10.1364/AO.55.009422
[6] Chen Y L, Hu X Y, Wang D Q, et al. Researches on underwater transmission characteristics of blue-green laser[C]//Oceans 2014 - Taipei, 2014: 1–5.
[7] Li X Z, Miao X C, Qi X, et al. Research on the propagation characteristics of blue-green laser through sea surface with foams [J]. Optik, 2018, 170: 265-271. doi:  10.1016/j.ijleo.2018.03.060
[8] Zhan E Q, Wang H Y. Research on spatial spreading effect of blue-green laser propagation through seawater and atmosphere[C]//2009 International Conference on E-Business and Information System Security, 2009: 1–4.
[9] Wang M J, Zhang J L, Wang J. Propagation characteristics of non-uniformly sinc-correlated blue-green laser beam through oceanic turbulence [J]. Infrared and Laser Engineering, 2020, 49(6): 20190370. (in Chinese) doi:  10.3788/irla.23_2019-0370
[10] Dong L W, Li N, Xie X H, et al. A fast analysis method for blue-green laser transmission through the sea surface [J]. Sensors, 2020, 20(6): 1758. doi:  10.3390/s20061758
[11] Wang M J, Wang Y H, Chen D, et al. Transmission characteristics of blue-green laser through two-dimensional dynamic sea surface-bubble layer [J]. Acta Optica Sinica, 2022, 42(2): 0214001. (in Chinese)
[12] Duntley S Q. Light in the sea [J]. Journal of Optical Society of America, 1963, 53(2): 214-233. doi:  10.1364/JOSA.53.000214
[13] Chen M F, Fung A K. A numerical study of the regions of validity of the Kirchhoff and small-perturbation rough surface scattering models [J]. Radio Science, 1988, 23(2): 163-170. doi:  10.1029/RS023i002p00163
[14] Wang M, Liu W T, Wang J H. Signal energy transfer analysis of blue-green laser upstream transmission channel [J]. Journal of East China Institute of Shipbuilding Industry (Natural Science Edition), 2003(4): 38-41. (in Chinese)
[15] Li Y L, Mao Z Y, Liu X G. Characteristic analysis of air-underwater blue-green laser communication channel [J]. Ship Electronic Engineering, 2021, 41(9): 69-73. (in Chinese)
[16] Li S L, Mao Z Y, Liu C H, et al. Air-ground downlink performance analysis of blue-green laser communication [J]. Optical Communication Technology, 2019, 43(11): 33-36. (in Chinese)
[17] Qi X, Han X E. Study of laser scattering characteristics of rough sea surface with foams [J]. Acta Optica Sinica, 2015, 35(8): 0829003. (in Chinese) doi:  10.3788/AOS201535.0829003
[18] Li C, Yuan R M, GAO H, et al. Characteristics of blue-green laser downlink cross-media transmission under different weather conditions [J]. Acta Photonica Sinica, 2021, 50(12): 1201003. (in Chinese)
[19] Zhao Z W. Radio wave propagation characteristics and remote sensing research of hydrometeors[D]. Xi'an: Xidian University, 2001. (in Chinese)
[20] Ulaby F T, Moore R K. Microwave Remote Sensing Volume II Radar Remote Sensing and Surface Scattering and Emission Theory[M]. Norwood Massachusetts: Artech House, 1987.
[21] Monahan E C, Lu M. Acoustically relevant bubble assemblages and their dependence on meteorological parameters [J]. IEEE Journal of Oceanic Engineering, 1990, 15(4): 340-349. doi:  10.1109/48.103530
[22] Czerski H, Twardowski M, Zhang X, et al. Resolving size distributions of bubbles with radii less than 30 μm with optical and acoustical methods [J]. Journal of Geophysical Research: Oceans, 2011, 116(C7): C00H11.
[23] Johnson B D, Cooke R C. Bubble populations and spectra in coastal waters: A photographic approach [J]. Journal of Geophysical Research, 1979, 84(C7): 3761-3766. doi:  10.1029/JC084iC07p03761
[24] Thorpe S A. On the clouds of bubbles formed by breaking wind-waves in deep water, and their role in air-sea gas transfer [J]. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 1982, 304(1483): 155-210.
[25] Bricaud A, Morel A, Babin M, et al. Variations of light absorption by suspended particles with chlorophyllaconcentration in oceanic (case 1) waters: Analysis and implications for bio-optical models [J]. Journal of Geophysical Research: Oceans, 1998, 103(C13): 31033-31044. doi:  10.1029/98JC02712
[26] Gordon H R, Morel A Y. Remote Assessment of Ocean Color for Interpretation of Satellite Visible Imaginary: A Review[M]. New York: Springer, 1983.
[27] Lewis M R, Cullen J J, Platt T. Phytoplankton and thermal structure in the upper ocean: Consequences of nonuniformity in chlorophyll profile [J]. Journal of Geophysical Research, 1983, 88(C4): 2565. doi:  10.1029/JC088iC04p02565