Preface. Part One: Bubble Dynamics and Bubble Interactions. Bubble dynamics: Some things we did not know ten years ago; A. Prosperetti. Experimental studies of bubble collapse; J.E. Field. Interaction of two laser-produced cavitation bubbles near boundaries; Y. Tomita, K. Sato, A. Shima. Interaction of two laser-induced cavitation bubbles; K. Jungnickel, A. Vogel. Dynamics of cavitation bubble interactions; P.B. Robinson, J.R. Blake. Vortex simulations of bubble oscillations; H.N. Ogammauz. Self-propulsion of bubbles in a weakly nonuniform flow field; A. Galper, T. Miloh. The dynamics of cavity clusters in polymer aqueous solutions subjected to an oscillating pressure; A. Shima, T. Tsujino. Dynamics of bubbly clusters and free surfaces at shock wave reflection; A. Besov, V. Kedrinskii. Time-resolved measurements of shock-wave emission and cavitation-bubble generation in intraocular laser surgery with ps and ns pulses; A. Vogel, S. Busch. Part Two: Sound and Wave Propagation. On equations of dynamics of bubbly liquids; R.I. Nigmatulin. Equations describing the propagation of nonlinear modulation waves in bubbly liquids; N.A. Gumerov. Linear wave propagation in bubbly liquids with a continuous bubble size distribution; S.L. Gavriliyuk. Active and passive acoustic roles of bubbles in the ocean; S.W. Yoon, B.K. Choi. Transient bubble oscillations associated with the underwater noise of rain detected optically and some properties of light scattered by bubbles; J.S. Stroud, P.L. Marston. Cavitation nuclei and thresholds of acoustic cavitation in ocean water; V.A. Akulichev. Part Three: Bubbles in Flow. Bubble dynamics and the sound emitted by cavitation; L. van Wijngaarden. Strong bubble/bubble and bubble/flow interactions; G.L. Chahine. Comparison of observed and calculated shapes of travelling cavitation bubbles; Y. Kuhn de Chizelle, C.E. Brennen. Patch cavitation in flow past a rigid body; S.D. Howison, J.D. Morgan, J.R. Ockendon. Dynamic calibration of transient sensors by spark generated cavity; F. Pereira, M. Farhat, F. Avellan. Observations of cloud cavitation on a stationary 2D profile; D.F. de Lange, G.J. de Bruin, L. van Wijngaarden. Numerical simulations of rising bubbles; A. Esmaeeli, E. Ervin, G. Tryggvason. Modelling bubbly flows; J.C.R. Hunt, J.R. Perkins, K. Lunde, N.H. Thomas. Role of coherent structures in bubble transport by turbulent shear flows; K.J. Sene, J.C.R. Hunt, R.J. Perkins, N.H. Thomas. A new design of the cavitation susceptibility meter: The venturix; T.M. Pham, J.M. Michel, Y. Lecoffre. Part Four: Sonoluminescence, Acoustic Cavitation and Ultrasound. Single-bubble sonoluminescence; L.A. Crum, S. Cordry. Approaching bubble dynamics with lasers, holography and computers; W. Lauterborn, I. Eick, A. Philipp. Pressure measurements during acoustic cavitation by sonoluminescence; K.S. Suslick, K.A. Kemper. Bubbles deformation and interface disruption as a source of sonochemical and sonoluminescent activity; T. Lepoint, N. Foglet, L. Faille, F. Mullie. Sonochemistry -- The chemical uses of cavitation; T.J. Mason. Response of bubbles to ultrasonic radiation pressure: Dynamics in low gravity and shape oscillations; P.L. Marston, E.H. Trinh, J. Depew, T.J. Asaki. Surface mode deformations on an oscillating bubble; S.J. Shaw. Visualisation of laser-induced vapor bubbles and pressure waves; A.P. Alloncle, D. Dufresne, M. Autric. Part Five: Jet Impact and Underwater Explosions. Low pressure zones under a liquid--solid impact; A.A. Korobkin. Inertial shocks in surface waves and collapsing bubbles; M. Longuet-Higgins. Jet formation at a free surface; D.H. Peregrine, P.R. Prentice. The rebound of toroidal bubbles; J.P. best. Energy losses in non-classical free surface flows; W.G. Szymczak. Behaviour of an underwater explosion bubble near a rigid boundary: Theory and experiment; M. Hooton, J.R. Blake, W.K. Soh. The behavior of a cavitation bubble near a rigid wall; S. Zhang, J.H. Duncan, G.L. Chahine. Numerical simulation of the interaction of an explosion bubble with submerged spherical pressure vessel; J.H. Duncan, C.D. Milligan. Part Six: Bursting Bubbles, Coalescence and Internal Phenomena. Bouncing and coalescence phenomena of two bubbles in water; P.C. Duineveld. Bursting of bubbles stabilised by surfactants for control of cell damage; A.J. Kowalski, N.H. Thomas. Internal phenomena in bubble motion; F. Takemura, Y. Matsumoto. Investigations into the use of two frequency excitation to accurately determine bubble sizes; A.D. Phelps, T.G. Leighton. Index of authors and papers.
