Dedicated to Prof. Wolfgang Eisenmenger on the occasion of his 65th birthday
- Autor(in)
- Referenz
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10 Y. Tomita, A. Shima, Acustic. 71 (1990) 161
11 B. Ward, D. C. Emmony, J. Acoust. Soc. Am. 88 (1990) 434
12 U. Parlitz, V. Englisch, C. Scheffczyk, W. Lauterborn, J. Acoust. Soc. Am. 88 (2) (1990) 1061
1 R. T. Knapp, J. W. Daily, F. G. Hammitt, Cavitation, McGraw-Hill, New York 1971
2 W. Lauterborn (ed.), Cavitation and Inhomogeneities in Underwater Acoustics, Springer, Berlin 1980
3 L. van Wijngaarden (ed.), Mechanics and Physics of Bubbles in Liquids, Martinus Nijhoff Publishers, The Hague 1982
4 F. R. Young, Cavitation, McGraw-Hill, London 1989
5 J. R. Blake, J. M. Boulton-Stone, N. H. Thomas (eds.), Bubble Dynamics and Interface Phenomena, Kluwer, Dordrecht 1994
6 W. Lauterborn, Acustic. 31 (1974) 51
7 W. Lauterborn, H. Bolle, J. Fluid Mech. 72 (1975) 391
8 A. Vogel, W. Lauterborn, R. Timm, J. Fluid Mech. 206 (1989) 299
9 A. Philipp, W. Lauterborn, Acustica (1994) in press
- Seitenbereich
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0026 - 0034
- Schlagwort(e)
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<KWD>Cavitation bubble
Bubble collapse
High-speed-photography
- Zusammenfsg.
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The collapse of laser-induced bubbles in water is investigated by high speed photography at framing rates as high as 20 million frames per second. The case of a spherical bubble in an unbounded liquid is compared with the Gilmore model. Bubbles collapsing in front of a solid wall show a rich dynamics depending on their normalized distance. Unprecedented details are given of the generic sequence of events leading to multiple shock waves and bubble shape metamorphosis upon collapse.
- Artikel-Typen
- Forschungsartikel