[1] Zeng, Z., Fu, S., Zhang, H., Dong, Y., Cheng, J.: A survey of underwater optical wireless communications. IEEE Commun. Surv. Tutor. 19(1), 204–238 (2017)

[2] Karp, S., Gagliardi, R.M., Moran, S.E., Stotts, L.: Optical Channels. Springer, USA (1988)

[3] Chao, F., Zhang, J., Zhang, G., Wu, Y., Hong, X., He, S.: Demonstration of 15-M 7.33-Gb/s 450-nm underwater wireless optical discrete multitone transmission using post nonlinear equalization. J. Lightwave Technol. 36(3), 728–734 (2018)

[4] Farr, N., Chave, A., Freitag, L., Preisig, J., White, S.N., Yoerger, D., Sonnichsen, F.: Optical modem technology for seafloor observatories. In: Proceedings of MTS/IEEE. OCEANS (2006)

[5] Duntley, S.Q.: Light in the sea. J. Soc. Am. A 53, 214–233 (1963)

[6] Shen, C., Guo, Y., Sun, X., Liu, G., Ho, K., Ng, T.K., Alouini, M., Ooi. B.S.: Going beyond 10-meter, Gbit/s underwater optical wireless communication links based on visible lasers. In: Proceedings of Opto-Electronics and Communications Conference (OECC) and Photonics Global Conference (PGC), pp. 1–3 (2017)

[7] Liu, X., Yi, S., Zhou, X., Fang, Z., Qiu, Z.-J., Hu, L., Cong, C., Zheng, L., Liu, R., Tian, P.: 34.5 m underwater optical wireless communication with 2.70 Gbps data rate based on a green laser diode with NRZ-OOK modulation. Opt. Express 25, 27937–27947 (2017)

[8] Hu, S., Mi, L., Zhou, T., Chen, W.: 35.88 attenuation lengths and 3.32 bits/photon underwater optical wireless communication based on photon-counting receiver with 256-PPM. Opt. Express 26, 21685–21699 (2018)

[9] Hanson, F., Radic, S.: High bandwidth underwater optical communication. Appl. Opt. 47(2), 277 (2008)

[10] Snow, J.B., Flatley, J.P., Freeman, D.E., Landry, M., Lindstrom, C., Longacre, J., Schwartz, J.: Underwater propagation of high-datarate laser communications pulses. In: Proceedings of SPIE - The International Society for Optical Engineering, pp. 1750 (1992)

[11] Zakharov, V.E., Lvov, V.S., Falkovich, G.: Kolmogorov Spectra of Turbulence I. Kolmogorov Spectra of Turbulence 1. Wave Turbulence, pp. 275. Springer, Berlin (1992)

[12] Aubourg, Q., Campagne, A., Peureux, C., Ardhuin, F., Sommeria, J., Viboud, S., Mordant, N.: 3-wave and 4-wave interactions in gravity wave turbulence. Phys. Rev. Fluids 2(11), e3 (2017)

[13] Nazarenko, S.: Wave turbulence. In: Lecture Notes in Physics. Springer, Berlin (2011)

[14] Elamassie, M., Miramirkhani, F., Uysal, M.: Performance characterization of underwater visible light communication. IEEE Trans. Commun. 67(1), 543–552 (2019)

[15] Jamali, M.V., Salehi, J.A., Akhoundi, F.: Performance studies of underwater wireless optical communication systems with spatial diversity: MIMO Scheme. IEEE Trans. Commun. 65(3), 1176–1192 (2017)

[16] Anous, N., Abdallah, M.M., Qaraqe, K.: Performance evaluation for vertical inhomogeneous underwater visible light communications. In: Proceedings of IEEE 86th Vehicular Technology Conference: VTC2017-Fall (2017)

[17] Li, J., Yuan, X.H., Luo, J., Li, S.: The centroid drift of laser spots with water surface wave turbulence in underwater optical wireless communication. Appl. Opt. 59(20), 6210–6217 (2020)

[18] Boyd, R.W.: Nonlinear Optics. Academic Press, New York (2020)

[19] Reiner, G., Belic, M.R., Meystre, P.: Optical turbulence in phaseconjugate resonators. J. Opt. Soc. Am. B 5(5), 1193–1209 (1988)

[20] Egami, C., Nakagawa, K., Fujiwara, H.: Efficient optical phase conjugation in methyl-orange-doped polyvinyl alcohol film. Jpn. J. Appl. Phys. 31(9), 2937–2940 (2014)

[21] Nalwa, H.S., Miyata, S.: Nonlinear Optics of Organic Molecules and Polymers. CRC Press, New York (1996)

[22] Chen, N.: Phase-conjugated distortion by degenerate four-wave mixing. Opt. Commun. 59(1), 69–71 (1986)

[23] Aithal, S., Aithal, P.S., Bhat, G.: Comparative study on Azo dyedoped polymer films for optical phase conjugation. Int. J. Sci. Res. 4(4), 436–441 (2015)