| [1] | SPEARS A, HOWARD A M, WEST M, et al. Determining underwater vehicle movement from sonar data in relatively featureless seafloor tracking missions[C]//IEEE Winter Conference on Applications of Computer Vision. New York, USA: IEEE, 2014: 909-916. |
| [2] | 方尔正, 李宗儒, 桂晨阳. 穿海牵天提升对潜通信保障能力——跨介质通信技术现状及展望[J]. 国防科技工业, 2022, 262(2): 59-62.FANG E Zh, LI Z R, GUI Ch Y. Crossing the sea and holding the sky to enhance the submarine communication security capability with the current situation and outlook of cross-media communication technology[J]. Defence Science & Technology Industry, 2022, 262(2): 59-62(in Chinese). |
| [3] | NASH P, STRUDLEY A, CRICKMORE R, et al. High efficiency TDM/WDM architectures for seismic reservoir monitoring[J]. Proceedings of the SPIE, 2009, 7503: 1125-1128. |
| [4] | WESTERVELT P J, LARSON R S. Laser-excited broadside array[J]. The Journal of the Acoustical Society of America, 1973, 54(1): 121-122. doi: 10.1121/1.1913551 |
| [5] | BUNKIN F V, KARLOV N V, KOMISSAROV V M, et al. Excitation of sound when a surface layer of a liquid absorbs a laser pulse[J]. Soviet Journal of Experimental and Theoretical Physics Letters, 1971, 13(9): 341-343. |
| [6] | ZHANG Y D, ZHAO Zh Y, YAO Ch B, et al. The nonlinear absorption and optical limiting in phenoxy-phthalocyanines liquid in nano-and femto-second regime: Experimental studies[J]. Optics & Laser Technology, 2014, 58(11): 207-214. |
| [7] | CARVER C J, TIAN Z, ZHANG H, et al. Amphilight: Direct air-water communication with laser light[J]. GetMobile: Mobile Computing & Communications review, 2021, 24(3): 26-29. |
| [8] | LEI L, JU Z, LEI Z, et al. Research on laser induced acoustic source based underwater communication system[J]. Proceedings of the SPIE, 2016, 10157: 477-483. |
| [9] | PARTON S, DALGLEISH F, BEAUJEAN P P, et al. Acquisition and registration of bathymetric acoustic data and MOFSLI (multiple overlapping field of view serial laser imager)[C]// 2013 MTS/IEEE OCEANS-Bergen. New York, USA : IEEE, 2013: 1-8. |
| [10] | JIANG H, QIU H, HE N, et al. Research on the optoacoustic communication system for speech transmission by variable laser-pulse repetition rates[J]. Results in Physics, 2018, 9(4): 1291-1296. |
| [11] | 任亚辉, 林菊平, 童勇, 等. 高能脉冲氙灯驱动电路特性分析[J]. 激光技术, 2022, 46(3): 397-401.REN Y H, LIN J P, TONG Y, et al. Analysis of driving circuit characteristics of high-power pulsed xenon lamp[J]. Laser Techno-logy, 2022, 46(3): 397-401(in Chinese) |
| [12] | 陈清明. 脉冲激光在液体中激发的声波特性研究[J]. 光学与光电技术, 2006, 4(3): 28-31.CHEN Q M. Characteristics of photoacoustics induced by pulse laser in liquid[J]. Optics & Optoelectronic Technology, 2006, 4(3): 28-31(in Chinese). |
| [13] | 王晓宇, 王江安, 宗思光, 等. 光击穿机制下的光声能量转换效率[J]. 强激光与粒子束, 2013, 25(3): 579-583.WANG X Y, WANG J A, ZONG S G, et al. Laser acoustic energy conversion efficiency in optical breakdown mechanism[J]. High Power Laser and Particle Beams, 2013, 25(3): 579-583(in Chinese). |
| [14] | WHITE R M. Elastic wave generation by electron bombardment or electromagnetic wave absorption[J]. Journal of Applied Physics, 1963, 34(7): 2123-2124. doi: 10.1063/1.1729762 |
| [15] | WHITE R M. Generation of elastic waves by transient surface heating[J]. Journal of Applied Physics, 1963, 34(12): 3559-3567. doi: 10.1063/1.1729258 |
| [16] | BLACKMON F, ESTES L, FAIN G. Linear optoacoustic underwater communication[J]. Applied Optics, 2005, 44(18): 3833-3845. doi: 10.1364/AO.44.003833 |
| [17] | BLACKMON F A, ANTONELLI L. Experimental detection and reception performance for uplink underwater acoustic communication using a remote, in-air, acousto-optic sensor[J]. IEEE Journal of Oceanic Engineering, 2006, 31(1): 179-187. |
| [18] | BLACKMON F, ANTONELLI L. Remote, aerial, trans-layer, linear and nonlinear downlink underwater acoustic communication[C]// OCEANS 2006. New York, USA: IEEE, 2006: 1-7. |
| [19] | ANTONELLI L, BLACKMON F. Laser-based method for docking unmanned underwater vehicle to a submarine: US, 8047149B1[P]. 2011-11-01. |
| [20] | 彭水, 张明敏, 王江安. 一种采用高重复频率激光进行水声通信的方法[J]. 中国激光, 2012, 39(7): 0705005.PENG Sh, ZHANG M M, WANG J A. Method of laser-generated sound with high repetition rate for underwater acoustic communication[J]. Chinese Journal of Lasers, 2012, 39(7): 0705005 (in Chinese). |
| [21] | LI P, ZHAO Y, ZHOU Zh Q, et al. Research on laser induced acoustic detection of trans-media aerial-underwater[J]. Infrared and Laser Engineering, 2021, 50(5): 20200310 (in Chinese). |