[1] X W Zhao, Y Zhang, P Qin, et al. Key technologies and development trends for a space-air-ground integrated wireless optical communication network. Acta Electronica Sinica, 50, 1-17(2022).

[2] S Karp. Optical communications between underwater and above surface (satellite) terminals. IEEE Transactions on Communications, 24, 66-81(1976).

[3] B Guan, H Y Yu, W Song, et al. Wave structure function and long-exposure MTF for Gaussian-beam waves propagating in anisotropic maritime atmospheric turbulence. Applied Sciences, 10, 5484(2020).

[4] L Zhao, Y G Xu, S K Yang. Statistical properties of partially coherent vector beams propagating through anisotropic atmospheric turbulence. Optik, 227, 166115(2021).

[5] Y Baykal, Y J Luo, X L Ji. Scintillations of higher order laser beams in anisotropic atmospheric turbulence. Applied Optics, 55, 9422(2016).

[6] Chen Y L, Hu X Y, Wang D Q, et al. Researches on underwater transmission acteristics of bluegreen laser[C]Oceans 2014 Taipei, 2014: 1–5.

[7] X Z Li, X C Miao, X Qi, et al. Research on the propagation characteristics of blue-green laser through sea surface with foams. Optik, 170, 265-271(2018).

[8] Zhan E Q, Wang H Y. Research on spatial spreading effect of bluegreen laser propagation through seawater atmosphere[C]2009 International Conference on EBusiness Infmation System Security, 2009: 1–4.

[9] M J Wang, J L Zhang, J Wang. Propagation characteristics of non-uniformly sinc-correlated blue-green laser beam through oceanic turbulence. Infrared and Laser Engineering, 49, 20190370(2020).

[10] L W Dong, N Li, X H Xie, et al. A fast analysis method for blue-green laser transmission through the sea surface. Sensors, 20, 1758(2020).

[11] M J Wang, Y H Wang, D Chen, et al. Transmission characteristics of blue-green laser through two-dimensional dynamic sea surface-bubble layer. Acta Optica Sinica, 42, 0214001(2022).

[12] S Q Duntley. Light in the sea. Journal of Optical Society of America, 53, 214-233(1963).

[13] M F Chen, A K Fung. A numerical study of the regions of validity of the Kirchhoff and small-perturbation rough surface scattering models. Radio Science, 23, 163-170(1988).

[14] M Wang, W T Liu, J H Wang. Signal energy transfer analysis of blue-green laser upstream transmission channel. Journal of East China Institute of Shipbuilding Industry (Natural Science Edition), 38-41(2003).

[15] Y L Li, Z Y Mao, X G Liu. Characteristic analysis of air-underwater blue-green laser communication channel. Ship Electronic Engineering, 41, 69-73(2021).

[16] S L Li, Z Y Mao, C H Liu, et al. Air-ground downlink performance analysis of blue-green laser communication. Optical Communication Technology, 43, 33-36(2019).

[17] X Qi, X E Han. Study of laser scattering characteristics of rough sea surface with foams. Acta Optica Sinica, 35, 0829003(2015).

[18] C Li, R M Yuan, H GAO, et al. Characteristics of blue-green laser downlink cross-media transmission under different weather conditions. Acta Photonica Sinica, 50, 1201003(2021).

[19] Zhao Z W. Radio wave propagation acteristics remote sensing research of hydrometes[D]. Xi''an: Xidian University, 2001. (in Chinese)

[20] Ulaby F T, Moe R K. Microwave Remote Sensing Volume II Radar Remote Sensing Surface Scattering Emission They[M]. Nwood Massachusetts: Artech House, 1987.

[21] E C Monahan, M Lu. Acoustically relevant bubble assemblages and their dependence on meteorological parameters. IEEE Journal of Oceanic Engineering, 15, 340-349(1990).

[22] H Czerski, M Twardowski, X Zhang, et al. Resolving size distributions of bubbles with radii less than 30 μm with optical and acoustical methods. Journal of Geophysical Research: Oceans, 116, C00H11(2011).

[23] B D Johnson, R C Cooke. Bubble populations and spectra in coastal waters: A photographic approach. Journal of Geophysical Research, 84, 3761-3766(1979).

[24] S A Thorpe. On the clouds of bubbles formed by breaking wind-waves in deep water, and their role in air-sea gas transfer. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 304, 155-210(1982).

[25] A Bricaud, A Morel, M Babin, et al. Variations of light absorption by suspended particles with chlorophyllaconcentration in oceanic (case 1) waters: Analysis and implications for bio-optical models. Journal of Geophysical Research: Oceans, 103, 31033-31044(1998).

[26] Gdon H R, Mel A Y. Remote Assessment of Ocean Col f Interpretation of Satellite Visible Imaginary: A Review[M]. New Yk: Springer, 1983.

[27] M R Lewis, J J Cullen, T Platt. Phytoplankton and thermal structure in the upper ocean: Consequences of nonuniformity in chlorophyll profile. Journal of Geophysical Research, 88, 2565(1983).