[1] P Zhan, W Tan, J Si, et al. Optical imaging of objects in turbid media using heterodyned optical Kerr gate. Applied Physics Letters, 104, 211907(2014).

[2] L J Mullen, A Vieira. Application of RADAR technology to aerial LIDAR systems for enhancement of shallow underwater target detection. IEEE Transactions on Microwave Theory and Techniques, 43, 2370-2377(1995).

[3] F Pellen, X Intes, P Olivard, et al. Determination of sea-water cut-off frequency response by backscattering transfer function measurement. Journal of Physics D: Applied Physics, 33, 349-354(2000).

[4] Pellen F, Olivard P, Guern Y, et al. Radiofrequency modulation on optical carrier f target detection enhancement in seawater [C]Proc SPIE Ocean Optics: Remote Sensing Underwater Imaging, 2002, 4488: 1324.

[5] L Mullen, V M Contarino, P R Herczfeld. Hybrid lidar-radar ocean experiment. IEEE Trans Microw Theory Tech, 44, 2703-2703(1996).

[6] L Mullen, V M Contarino, P R Herczfeld. Hybrid lidar-radar: seeing through the scatter. IEEE Microw Mag, 1, 42-48(2000).

[7] Mullen L, Herczfeld P R. Full scale hybrid lidarradar system [C]Proc IEEE Microwave Symposium Digest, 1996, 3: 15591662.

[8] L D Dominicis, M Collibus, G Fornetti, et al. Improving underwater imaging in an amplitude modulated laser system with radio frequency control technique. Journal of the European Optical Society Rapid Publications, 5, 138-138(2009).

[9] S O’connor, L J Mullen, B Cochenour. Underwater modulated pulse laser imaging system. Optical Engineering, 53, 051403(2014).

[10] L Mullen, A Laux, B Cochenour. Demodulation techniques for the amplitude modulated laser imager. Appl Opt, 46, 7374-7383(2007).

[11] B Cochenour, L Mullen, J Muth. Modulated pulse laser with pseudorandom coding capabilities for underwater ranging, detection, and imaging. Applied Optics, 50, 6168-6178(2011).

[12] J Hang, M Yong, L Kun, et al. Backscattering light model of seawater for modulated lidar based on stationarity of light field. Journal of Beijing Institute of Technology, 16, 481-485(2007).

[13] M A Yong, J I Hang, K Liang. Application of modulated lidar on optical carrier for ocean exploration. Laser Technology, 32, 346-349(2008).

[14] Mullen L. Optical propagation in the underwater environment [C]Proceedings of SPIE, 2009, 7324: 732409.

[15] L Mullen, A Laux, B Cochenour. Propagation of modulated light in water: implications for imaging and communications systems. Applied Optics, 48, 260712(2009).

[16] L Mullen, D Alley, B Cochenour. Investigation of the effect of scattering agent and scattering albedo on modulated light propagation in water. Applied Optics, 50, 1396-1404(2011).

[17] Cochenour B, Mullen L. Channel response measurements f diffuse nonlineofsight (NLOS) optical communication links underwater[C]Ocean''11 MTSIEEE Kona, 2011: 15.

[18] B Cochenour, L Mullen, J Muth. Temporal response of the underwater optical channel for high-bandwidth wireless laser communications. IEEE Journal of Oceanic Engineering, 38, 730-742(2013).

[19] Lin Hong. Study on Optical Scattering acteristics of Marine Suspended Particles [M]. Beijing: China Atomic Energy Press, 2016. (in Chinese)

[20] Alkholidi A G. Free Space Optical Communications — They Practices [M]. Rijeka: InTech, 2014.

[21] Feng Shiyu, Li Fengqi, Li Shaoqing. Introduction to Marine Science [M]. Beijing: Higher Education Press, 1999. (in Chinese)

[22] A Jantzi, W Jemison, A Laux, et al. Enhanced underwater ranging using an optical vortex. Optics Express, 26, 2668-2674(2018).

[23] Cochenour B, Rodgers L, Laux A, et al. The detection of objects in a turbid underwater medium using bital angular momentum (OAM) [C]SPIE Defense + Security. Society of PhotoOptical Instrumentation Engineers (SPIE) Conference Series, 2017, 10186: 1018603.

[24] Yingqi Liao, Suhui Yang, Kun Li, et al. Numerical simulation of performance improvement of underwater lidar by using a spiral phase plate as spatial filter. Photonics Journal, 14, 1-3(2022).

[25] D M Palacios, I D Maleev, A S Marathay, et al. Spatial correlation singularity of a vortex field. Physical Review Letters, 92, 143905(2004).

[26] Yihua Bai, Haoran Lv, Xin Fu, et al. Vortex beam: generation and detection of orbital angular momentum [Invited]. Chinese Optic Letters, 20, 012601(2022).

[27] D Palacios, D Rozas, G A Swartzlander. Observed scattering into a dark optical vortex core. Physical Review Letters, 88, 103902(2002).

[28] G Foo, D M Palacios, G A Swartzlander. Optical vortex coronagraph. Optics Letters, 30, 3308-3310(2005).

[29] G A Swartzlander. Peering into darkness with a vortex spatial filter. Optics Letters, 26, 8-12(2001).

[30] W Sun, Y Hu, D G Macdonnell, et al. Technique to separate lidar signal and sunlight. Optics Express, 24, 12949-12954(2016).

[31] Zhihan Zhu, Liwen Sheng, Zhiwei. Lv et al. Orbital angular momentum mode division filtering for photon-phonon coupling. Sci Rep, 7, 40526(2017).

[32] Ruyue Zhong, Zhihan Zhu, Shuwei Song, et al. Gouy-phase-mediated propagation variations and revivals of transverse structure in vectorially structured light. Physical Review A, 103, 053520(2021).

[33] Zhihan Zhu, Peng Chen, Hongwei Li, et al. Fragmentation of twisted light in photon–phonon nonlinear propagation. Applied Physics Letters, 112, 161103(2018).

[34] Jing Li, Yong Ma, Qiankun Zhou, et al. Monte Carlo study on pulse response of underwater optical channel. Optical Engineering, 53, 066001(2012).

[35] Kun Li, Suhui Yang, Xin Wang, et al. RF intensity modulated mid-IR light source based on dual-frequency optical parametric oscillation. Optics Express, 27, 4907-4916(2019).