[1] N Saeed, A Celik, T Y Al-Naffouri, et al. Underwater optical wireless communications, networking, and localization: A survey. Ad Hoc Networks, 94, 101935(2019).

[2] H Kaushal, G Kaddoum. Underwater optical wireless communication. IEEE Access, 4, 1518-1547(2016).

[3] S V Egerev. In search of a noncontact underwater acoustic source. Acoustical Physics, 49, 51-61(2003).

[4] R Kumar, N Thakur, V Thakur. An overview of sonar and acoustic underwater communication. International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 2, 1997(2013).

[5] Hickman G D, Edmonds J A. An experimental facility f laseracoustic applications[R]. Arlington, VA: Applied Science Technology Inc, 1981.

[6] Blackmon F, Antonelli L. Remote, aerial, translayer, linear nonlinear downlink underwater acoustic communication[C]IEEE, 2006: 17.

[7] F A Blackmon, L T Antonelli. Experimental detection and reception performance for uplink underwater acoustic communication using a remote, in-air, acousto-optic sensor. IEEE Journal of Oceanic Engineering, 31, 179-187(2006).

[8] Yuhong Wang, Jiangan Wang, Ronghua Wu. Influence of liquids properties and absorbed energy on laser induced expending sound. High Power Laser and Particle Beams, 21, 998-1002(2009).

[9] Zhonghua Zhao, Haiyan Xin, Xiaoyu Wang. Primary research on technology of communication based on laser-induced acoustic signal. Infrared and Laser Engineering, 44, 863-866(2015).

[10] Xiaolin Zhang, Wenyan Tang, Heyi Sun. Laser interferometry of underwater acoustic signals. Optics and Precision Engineering, 18, 809-815(2010).

[11] Xiaolin Zhang, Hongjie Mao, Wenyan Tang. Improved algorithm for interferometric measurement of low-frequency underwater acoustics. Optics and Precision Engineering, 26, 2623-2631(2018).

[12] Xiaolin Zhang, Hongjie Mao, Kai Li, et al. Amplitude detection of low frequency water surface acoustic wave based on phase demodulation. Infrared and Laser Engineering, 48, 0702001(2019).

[13] Shengyong Li, Ronghua Wu, Xiaoyu Wang, et al. Properties of laser-induced acoustic signals transmission in liquid. Infrared and Laser Engineering, 46, 0406006(2017).

[14] Qiyi He, Siguang Zong. Analysis and thinking about the development of air and water crossed laser acoustic technology. Laser and Infrared, 49, 3-8(2019).

[15] Li Rongfu, Cui Guihua, Tian Zuoxi, et al. LaserAcoustic Remote Sensing Technique[M]. Beijing: National Defence Industry Press, 2003: 1419. (in Chinese)

[16] Siguang Zong, Jiangan Wang, Yuhong Wang, et al. Laser-acoustic source characteristic and its application in ocean. Journal of Applied Optical, 29, 408-411(2008).

[17] William H Thorp. Analytic description of the low-frequency attenuation coefficient. The Journal of the Acoustical Society of America, 42, 270(1967).

[18] Yang Yu, Jiangan Wang, Xingzhou Jiang. The study of theory of directivity of laser-induced sound radiating field in water. Laser and Infrared, 37, 26-29(2007).

[19] Jianying Zhang, Wenming Xie, Zhiping Zeng, et al. Recent progress in photoacoustic imaging technology. Chinese Optics, 4, 111-117(2011).

[20] Shaofeng Miao, Hong Yang, Yuanhui Huang, et al. Research progresses of photoacoustic imaging. Chinese Optics, 8, 700-713(2015).