[1] Cook J. Laser propulsion is it another myth or a real potential[C], 997, 109-118(2008).

[2] Remacle M, Ricci-Maccarini A, Matar N et al. Reliability and efficacy of a new CO2 laser hollow fiber: a prospective study of 39 patients[J]. European Archives of Oto-Rhino-Laryngology, 269, 917-921(2012).

[3] Eckel H, Schall W. Concept for a laser propulsion based nanosat launch system[C], 702, 263-273(2003).

[4] Zhang W, Wei Z, Wang Y B et al. The process of a laser-supported combustion wave induced by millisecond pulsed laser on aluminum alloy[J]. Chinese Physics Letters, 33, 014205(2016).

[5] Palla D, Cristoforetti G. Laser-accelerated plasma-propulsion system[J]. Applied Sciences, 11, 10154(2021).

[6] Nazeer N, Younus A, Jamil Y et al. Plasma confinement using semi-spherical cavities for enhancement of ablative laser propulsion parameters[J]. Applied Physics B, 128, 206(2022).

[7] Chen L, Lu J Y, Feng C G. Experimental and theoretical investigationon laser supported detonation waves in air[J]. Chinese Journal of High Pressure Physics, 24, 154-160(2010).

[8] Qin Z, Ye Y H, Shen R Q. Research progress of laser propulsion technology[C], 213-520(2012).

[9] Ma Z Y, Zhang X Q. Simulationon shock wave from laser produced plasma[J]. Journal of Hubei University of Automotive Technology, 34, 69-72(2020).

[10] Zhan Y H, Li N L. Experimental study on propulsion performance of pulsed plasma under different laser ignition energy[J]. Development & Innovation of Machinery & Electrical Products, 34, 14-16(2021).

[11] Bi S Y, Lei Z L, Qin L D. Cleaning quality and desorption behavior of marine biofilm layer on high strength steel surface using nanosecond pulsed laser[J]. Chinese Journal of Lasers, 50, 1602203(2023).

[12] Patskovsky S, Qi M J, Meunier M. Single point single-cell nanoparticle mediated pulsed laser optoporation[J]. The Analyst, 145, 523-529(2020).

[13] Man T X, Zhu X F, Chow Y T et al. Intracellular photothermal delivery for suspension cells using sharp nanoscale tips in microwells[J]. ACS Nano, 13, 10835-10844(2019).

[14] Korsakov V S, Faskhiev V N, Korsakov M S et al. Silver halide fiber lightguides for laser medicine[J]. Journal of Optical Technology, 84, 701-704(2017).

[15] Zhou G Y. New progress of medical laser technology[C], 9(2011).

[16] Zhu D, Luo Q M. Nonlinear analysis of the role of dynamic changes in tissue properties in laser coagulation of tissue[J]. Chinese Journal of Lasers, 30, 199-201(2003).

[17] Chen W B. Application and prospect of laser technology in clinical medicine[J]. Beijing Biomedical Engineering, 26, 559-561(2007).

[18] Li Y S, Wang J P, Shi T Y et al. Experimental research on the pressure distribution of continuous detonation engines[J]. Journal of Aerospace Science and Technology, 1, 7-12(2013).

[19] Sugamura K, Kato K, Komurasaki K et al. Hugoniot relation for a bow-shaped detonation wave generated in RP laser propulsion[J]. Aerospace, 10, 102(2023).

[20] Li W X[M]. One-dimensional nonsteadyflow and shock waves, 221-229(2003).

[21] Jin Z G, Wu X, Fan H F. Combustion wave, detonation wave and explosion-physical background of Hugoniot curve[C], 10-17(2010).

[22] Zou B, Chen J P, Ni X W. Acoustic measurement of parameters of laser induced plasma on the target[J]. Laser Technology, 24, 366-369(2000).

[23] Chen L, Lu J Y, Wu J Y[M]. Laser supported detonation wave, 61-62(2011).

[24] Bouziane H, Annou K. Shock waves in weakly relativistic e-p-i plasma: application to plasma created by ultraintense short pulse laser[J]. IEEE Transactions on Plasma Science, 50, 2097-2103(2022).

[25] Qin C. Study on detonation wave supported by composite materials induced by long pulse laser[D], 12-20(2014).

[26] Noack J, Vogel A. Single-shot spatially resolved characterization of laser-induced shock waves in water[J]. Applied Optics, 37, 4092-4099(1998).

[27] Liang X X, Linz N, Freidank S et al. Comprehensive analysis of spherical bubble oscillations and shock wave emission in laser-induced cavitation[J]. Journal of Fluid Mechanics, 940, A5(2022).

[28] Lai G H, Geng S Y, Zheng H W et al. Early dynamics of a laser-induced underwater shock wave[J]. Journal of Fluids Engineering, 144, 011501(2022).

[29] Wang Y X, Han D X, Liu J H et al. Non-spherical symmetry development of underwater shock waves created by laser-induced breakdown[J]. Journal of Hydrodynamics, 35, 76-82(2023).

[30] Wang Y H, Wang J A, Ren X C. Laser induced bubble characteristics with experimental and numerical methods[J]. Acta Physica Sinica, 58, 8372-8378(2009).

[31] Zhang Z X, Wang J, Wang S Q[M]. Generation, mechanisms, monitoring and biomedical applications of photoinduced micro-nano cavitation bubbles, 180-192(2023).

[32] Rice M H, Walsh J M. Equation of state of water to 250 kilobars[J]. The Journal of Chemical Physics, 26, 824-830(1957).

[33] Vogel A, Busch S, Parlitz U. Shock wave emission and cavitation bubble generation by picosecond and nanosecond optical breakdown in water[J]. The Journal of the Acoustical Society of America, 100, 148-165(1996).

[34] Ridah S. Shock waves in water[J]. Journal of Applied Physics, 64, 152-158(1988).

[35] Cole R H, Weller R. Underwater explosions[J]. Physics Today, 1, 35(1948).

[36] Chang T Q, Nie J Z. Influence of plasma collective effect on laser inverse bremsstrahlung absorption[J]. Acta Physica Sinica, 33, 1437-1441(1984).

[37] Lu J Y, Geng D S, Chen L. Numerical simulation of high intensity of laser induced plasma shock wave in water[J]. Chinese Journal of Lasers, 42, 0902001(2015).

[38] Liu J L, Li J Y. Clinically focused issues in thrombectomy for lower extremity deep vein thrombosis[J]. Chinese Journal of General Surgery, 31, 705-712(2022).

[39] Li H C, Huang J, Wu X Q et al. Dynamic behaviors of a laser-induced bubble and transition mechanism of collapse patterns in a tube[J]. AIP Advances, 10, 5210-5221(2020).

[40] Zhang A M, Wang Y, Wen X Y et al. Review of the dynamics of the underwater explosion bubble[J]. Journal of Ship Mechanics, 13, 828-840(2009).

[41] Nahen K, Vogel A. Plasma formation in water by picosecond and nanosecond Nd∶YAG laser pulses.II. Transmission, scattering, and reflection[J]. IEEE Journal of Selected Topics in Quantum Electronics, 2, 861-871(1996).

[42] Zhang A M, Li S M, Cui P et al. A unified theory for bubble dynamics[J]. Physics of Fluids, 35, 033323(2023).

[43] Chen Z L, Li Z X, Wang M et al. Research progress on key passive devices for high-power fiber lasers[J]. Acta Optica Sinica, 43, 1714004(2023).

[44] Xue J J, Xue J Q[M]. Thrombosis, 41-42(1997).

[45] Rozman R, Grabec I, Govekar E. Influence of absorption mechanisms on laser-induced plasma plume[J]. Applied Surface Science, 254, 3295-3305(2008).

[46] He Y C, Li H Y, Zhang H R et al. A tapered optical fiber propulsion system for studying underwater laser propulsion of microspheres[C], W4.63(2022).

[47] Li H Y, He Y C, Zhou G Q et al. Experimental investigations of underwater laser propulsion microspheres based on a tapered fiber propulsion system[J]. Applied Physics B, 128, 195(2022).