[1] Brennen C E. Cavitation in medicine[J]. Interface Focus, 5, 20150022(2015).

[2] Sreedhar B K, Albert S K, Pandit A B. Cavitation damage: theory and measurements: a review[J]. Wear, 372/373, 177-196(2017).

[3] Gonzalez-Avila S R, van Blokland A C, Zeng Q Y et al. Jetting and shear stress enhancement from cavitation bubbles collapsing in a narrow gap[J]. Journal of Fluid Mechanics, 884, A23(2020).

[4] Reuter F, Ohl C D. Supersonic needle-jet generation with single cavitation bubbles[J]. Applied Physics Letters, 118, 134103(2021).

[5] Tomita Y, Shima A. Mechanisms of impulsive pressure generation and damage pit formation by bubble collapse[J]. Journal of Fluid Mechanics, 169, 535(1986).

[6] Zeng Q Y, Gonzalez-Avila S R, Dijkink R et al. Wall shear stress from jetting cavitation bubbles[J]. Journal of Fluid Mechanics, 846, 341-355(2018).

[7] Zong S G, Wang J G, Ma Z G. Lighting and shock wave emission of laser cavitation bubble collapse[J]. Chinese Journal of Lasers, 37, 1000-1006(2010).

[8] Šarc A, Oder M, Dular M. Can rapid pressure decrease induced by supercavitation efficiently eradicate Legionella pneumophila bacteria?[J]. Desalination and Water Treatment, 57, 2184-2194(2016).

[9] Philipp A, Lauterborn W. Cavitation erosion by single laser-produced bubbles[J]. Journal of Fluid Mechanics, 361, 75-116(1998).

[10] Zhang C, Yin Z Q, Tu C X et al. Dynamic behavior of the cavitation bubbles collapsing between a rigid wall and an elastic wall[J]. AIP Advances, 11, 065025(2021).

[11] Zhang A M, Cui P, Cui J et al. Experimental study on bubble dynamics subject to buoyancy[J]. Journal of Fluid Mechanics, 776, 137-160(2015).

[12] Yamamoto T, Matsutaka R, Komarov S V. High-speed imaging of ultrasonic emulsification using a water-gallium system[J]. Ultrasonics Sonochemistry, 71, 105387(2021).

[13] Zhang Y N, Xie X Y, Zhang Y N et al. Experimental study of influences of a particle on the collapsing dynamics of a laser-induced cavitation bubble near a solid wall[J]. Experimental Thermal and Fluid Science, 105, 289-306(2019).

[14] Koukouvinis P, Strotos G, Zeng Q Y et al. Parametric investigations of the induced shear stress by a laser-generated bubble[J]. Langmuir, 34, 6428-6442(2018).

[15] Rapet J, Quinto-Su P A, Ohl C D. Cavitation inception from transverse waves in a thin liquid gap[J]. Physical Review Applied, 14, 024041(2020).

[16] Akhatov I, Lindau O, Topolnikov A et al. Collapse and rebound of a laser-induced cavitation bubble[J]. Physics of Fluids, 13, 2805-2819(2001).

[17] Hutli E, Nedeljkovic M S, Bonyár A et al. Experimental study on the influence of geometrical parameters on the cavitation erosion characteristics of high speed submerged jets[J]. Experimental Thermal and Fluid Science, 80, 281-292(2017).

[18] Fortes-Patella R, Challier G, Reboud J L et al. Energy balance in cavitation erosion: from bubble collapse to indentation of material surface[J]. Journal of Fluids Engineering, 135, 011303(2013).

[19] Brujan E A, Noda T, Ishigami A et al. Dynamics of laser-induced cavitation bubbles near two perpendicular rigid walls[J]. Journal of Fluid Mechanics, 841, 28-49(2018).

[20] Tomita Y, Robinson P B, Tong R P et al. Growth and collapse of cavitation bubbles near a curved rigid boundary[J]. Journal of Fluid Mechanics, 466, 259-283(2002).

[21] Ma X J, Huang B, Zhao X et al. Comparisons of spark-charge bubble dynamics near the elastic and rigid boundaries[J]. Ultrasonics Sonochemistry, 43, 80-90(2018).

[22] Brujan E A, Nahen K, Schmidt P et al. Dynamics of laser-induced cavitation bubbles near an elastic boundary[J]. Journal of Fluid Mechanics, 433, 251-281(2001).

[23] Zhen J, Zhang D, Jiang B H et al. Formation mechanism of water jets induced by the interaction between bubble and free surface[J]. Acta Physica Sinica, 66, 044702(2017).

[24] Li T, Zhang A M, Wang S P et al. Bubble interactions and bursting behaviors near a free surface[J]. Physics of Fluids, 31, 042104(2019).

[25] Supponen O, Kobel P, Obreschkow D et al. The inner world of a collapsing bubble[J]. Physics of Fluids, 27, 091113(2015).

[26] Supponen O, Obreschkow D, Kobel P et al. Detailed jet dynamics in a collapsing bubble[J]. Journal of Physics: Conference Series, 656, 012038(2015).

[27] Supponen O, Obreschkow D, Tinguely M et al. Scaling laws for jets of single cavitation bubbles[J]. Journal of Fluid Mechanics, 802, 263-293(2016).

[28] Robinson P B, Blake J R, Kodama T et al. Interaction of cavitation bubbles with a free surface[J]. Journal of Applied Physics, 89, 8225-8237(2001).

[29] Zhao S N, Dong Z Y, Yao C Q et al. Liquid-liquid two-phase flow in ultrasonic microreactors: cavitation, emulsification and mass transfer enhancement[J]. AIChE Journal, 64, 1412-1423(2017).

[30] Lippert T, Bandelin J, Schlederer F et al. Effects of ultrasonic reactor design on sewage sludge disintegration[J]. Ultrasonics Sonochemistry, 68, 105223(2020).

[31] Yin Z Q, Huang Z M, Tu C X et al. Dynamic characteristics of bubble collapse near the liquid-liquid interface[J]. Water, 12, 2794(2020).

[32] Yamamoto T, Komarov S V. Liquid jet directionality and droplet behavior during emulsification of two liquids due to acoustic cavitation[J]. Ultrasonics Sonochemistry, 62, 104874(2020).

[33] Orthaber U, Zevnik J, Petkovšek R et al. Cavitation bubble collapse in a vicinity of a liquid-liquid interface - Basic research into emulsification process[J]. Ultrasonics Sonochemistry, 68, 105224(2020).

[34] Tong D S. Study on the treatment of oil-field produced water with cavitating water jet[D](2009).

[35] Lechner C, Lauterborn W, Koch M et al. Jet formation from bubbles near a solid boundary in a compressible liquid: numerical study of distance dependence[J]. Physical Review Fluids, 5, 093604(2020).

[36] Ohl C D, Ikink R. Shock-wave-induced jetting of micron-size bubbles[J]. Physical Review Letters, 90, 214502(2003).

[37] Fu L, Wang P, Wang S J et al. Dynamics of bubble pairs in water induced by focused nanosecond laser pulse[J]. Chinese Journal of Lasers, 49, 0407001(2022).

[38] Obreschkow D, Tinguely M, Dorsaz N et al. Universal scaling law for jets of collapsing bubbles[J]. Physical Review Letters, 107, 204501(2011).

[39] Blake J R, Gibson D C. Cavitation bubbles near boundaries[J]. Annual Review of Fluid Mechanics, 19, 99-123(1987).

[40] Supponen O, Obreschkow D, Kobel P et al. Shock waves from nonspherical cavitation bubbles[J]. Physical Review Fluids, 2, 093601(2017).

[41] Chen R C C, Yu Y T, Su K W et al. Exploration of water jet generated by Q-switched laser induced water breakdown with different depths beneath a flat free surface[J]. Optics Express, 21, 445-453(2013).

[42] Zhang S, Wang S P, Zhang A M. Experimental study on the interaction between bubble and free surface using a high-voltage spark generator[J]. Physics of Fluids, 28, 032109(2016).

[43] Guo W L, Li H C, Wang J Z et al. Reserch progress on interaction between a single cavitation and free surface[J]. Chinese Journal of Theoretical and Applied Mechanics, 51, 1682-1698(2019).

[44] Longuet-Higgins M S. Bubbles, breaking waves and hyperbolic jets at a free surface[J]. Journal of Fluid Mechanics, 127, 103(1983).