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The effect of the cone boundary on collapse of the laser-induced bubble is investigated under the assumption of virtual plane, and the methods of shadow photography, optical beam deflection and simulation are also used to obtain the effect of cone angle on the bubble dynamics. The results indicate that the effects of the cone angle on the shape of bubble, collapse time and the formation of liquid jet are obvious. The degree of departure of bubble shape from spherical shape and the collapse time are found to increase with the increase of cone angle, and the valid liquid jet is able to form at a lager cone angle. The experimental value and theoretical value of collapse are in good agreement with each other, and the assumption of virtual plane and the modification of dimensionless distance parameter proposed in this study are valid.
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Keywords:
- laser-induced bubble /
- collapse time /
- optical beam deflection /
- shadow photography
[1] Werner L,Thomas K 2010 Reports on Progress in Physics 73 106501
[2] Brennen C E 1995 Cavitation And Bubble Dynamics (London: Oxford University Press)
[3] Lauterborn W 1974 Acustica 31 51
[4] Akhatov I, Vakhitova N, Topolnikov A, Zakirov K, Wolfrum B, Kurz T, Lindau O, Mettin R, Lauterborn W 2002 Experimental Thermal and Fluid Science 26 731
[5] Brujan E A, Nahen K, Schmidt P, Vogel A 2001 Journal of Fluid Mechanics 433 283
[6] Akhatov I, Lindau O, Topolnikov A, Mettin R, Vakhitova N, Lauterborn W 2001 Physics of Fluids 13 2805
[7] Obreschkow D, Kobel P, Dorsaz N, De Bosset A, Nicollier C, Farhat M 2006 Physical Review Letters 97 94502
[8] Lu X P, Liu M H, Jiang Z H, Pan Y 2002 Chinese Physics Letters 19 704
[9] Xu R Q, Chen X, Shen Z H, Ni X.W 2004 Acta. Phys. Sin. 53 1413 (in Chinese) [徐荣青, 陈笑, 沈中华, 陆建, 倪晓武 2004 53 1413]
[10] Brujan E A, Keen G S, Vogel A, Blake J R 2002 Physics of Fluids 14 85
[11] Plesset M S, Chapman R B 1971 Journal of Fluid Mechanics 47 283
[12] Song W D, Hong M H, Lukyanchuk B, Chong T C 2004 Journal of Applied Physics 95 2952
[13] Dijkink R, Ohl C D 2008 Applied Physics Letters 93 3
[14] Brennen C E 2003 Fifth International Symposium on Cavitation Osaka Japan, November 1-4
[15] Zhao R, Xu R Q, Shen Z H, Lu J, Ni X W 2006 Acta. Phys. Sin. 55 4783 (in Chinese) [赵瑞, 徐荣青, 沈中华, 陆建, 倪晓武 2006 55 4783]
[16] Liu X M, He J, Lu J, Ni X W 2008 Chin. Phys. B 17 2574
[17] Liu X M, He J, Lu J, Ni X W 2009 Optics & Laser Technology 41 21
[18] Liu X M, He J, Lu J, Ni X W 2009 Acta Phys. Sin. 58 4020 (in Chinese) [刘秀梅, 贺杰, 陆建, 倪晓武 2009 58 4020]
[19] Li B B, Zhang H C, Lu J, Ni X W 2011 Optics & Laser Technology 43 1499
[20] Gregorčič P, Petkovšek R, Možina J 2007 Journal of Applied Physics 102 094904
[21] Blake J R, Gibson D C 1981 Journal of Fluid Mechanics 111 123
[22] Quinto-Su P A, Lim K Y, Ohl C D 2009 Phys. Rev. E 80 047301
[23] Dijkink R, Ohl C D 2008 Lab. Chip 8 1676
[24] Vogel A, Apitz I, Freidank S, Dijkink R 2006 Opt. Lett. 31 1812
[25] Petkovšek R, Gregorčič P 2007 Journal of Applied Physics 102 044909
[26] Holt R G, Crum L A 1990 Appl. Opt. 29 4182
[27] Chen X, Xu R Q, Chen J P, Shen Z H, Jian L, Ni X W 2004 Appl. Opt. 43 3251
[28] Zhao R, Liang Z C, Xu R Q, Lu J, Ni X W 2008 Jpn. J. Appl. Phys. 47 5482
[29] Plesset M S 1949 Journal of Applied Mechanics 16 277
[30] Rayleigh L 1917 Philos. Mag. 34 94
[31] Maurice Rattray J 1951 Ph.D. Dissertation (Pesadena Calif.: California Institute of Technology)
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[1] Werner L,Thomas K 2010 Reports on Progress in Physics 73 106501
[2] Brennen C E 1995 Cavitation And Bubble Dynamics (London: Oxford University Press)
[3] Lauterborn W 1974 Acustica 31 51
[4] Akhatov I, Vakhitova N, Topolnikov A, Zakirov K, Wolfrum B, Kurz T, Lindau O, Mettin R, Lauterborn W 2002 Experimental Thermal and Fluid Science 26 731
[5] Brujan E A, Nahen K, Schmidt P, Vogel A 2001 Journal of Fluid Mechanics 433 283
[6] Akhatov I, Lindau O, Topolnikov A, Mettin R, Vakhitova N, Lauterborn W 2001 Physics of Fluids 13 2805
[7] Obreschkow D, Kobel P, Dorsaz N, De Bosset A, Nicollier C, Farhat M 2006 Physical Review Letters 97 94502
[8] Lu X P, Liu M H, Jiang Z H, Pan Y 2002 Chinese Physics Letters 19 704
[9] Xu R Q, Chen X, Shen Z H, Ni X.W 2004 Acta. Phys. Sin. 53 1413 (in Chinese) [徐荣青, 陈笑, 沈中华, 陆建, 倪晓武 2004 53 1413]
[10] Brujan E A, Keen G S, Vogel A, Blake J R 2002 Physics of Fluids 14 85
[11] Plesset M S, Chapman R B 1971 Journal of Fluid Mechanics 47 283
[12] Song W D, Hong M H, Lukyanchuk B, Chong T C 2004 Journal of Applied Physics 95 2952
[13] Dijkink R, Ohl C D 2008 Applied Physics Letters 93 3
[14] Brennen C E 2003 Fifth International Symposium on Cavitation Osaka Japan, November 1-4
[15] Zhao R, Xu R Q, Shen Z H, Lu J, Ni X W 2006 Acta. Phys. Sin. 55 4783 (in Chinese) [赵瑞, 徐荣青, 沈中华, 陆建, 倪晓武 2006 55 4783]
[16] Liu X M, He J, Lu J, Ni X W 2008 Chin. Phys. B 17 2574
[17] Liu X M, He J, Lu J, Ni X W 2009 Optics & Laser Technology 41 21
[18] Liu X M, He J, Lu J, Ni X W 2009 Acta Phys. Sin. 58 4020 (in Chinese) [刘秀梅, 贺杰, 陆建, 倪晓武 2009 58 4020]
[19] Li B B, Zhang H C, Lu J, Ni X W 2011 Optics & Laser Technology 43 1499
[20] Gregorčič P, Petkovšek R, Možina J 2007 Journal of Applied Physics 102 094904
[21] Blake J R, Gibson D C 1981 Journal of Fluid Mechanics 111 123
[22] Quinto-Su P A, Lim K Y, Ohl C D 2009 Phys. Rev. E 80 047301
[23] Dijkink R, Ohl C D 2008 Lab. Chip 8 1676
[24] Vogel A, Apitz I, Freidank S, Dijkink R 2006 Opt. Lett. 31 1812
[25] Petkovšek R, Gregorčič P 2007 Journal of Applied Physics 102 044909
[26] Holt R G, Crum L A 1990 Appl. Opt. 29 4182
[27] Chen X, Xu R Q, Chen J P, Shen Z H, Jian L, Ni X W 2004 Appl. Opt. 43 3251
[28] Zhao R, Liang Z C, Xu R Q, Lu J, Ni X W 2008 Jpn. J. Appl. Phys. 47 5482
[29] Plesset M S 1949 Journal of Applied Mechanics 16 277
[30] Rayleigh L 1917 Philos. Mag. 34 94
[31] Maurice Rattray J 1951 Ph.D. Dissertation (Pesadena Calif.: California Institute of Technology)
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