1. L. Rayleigh, On the pressure developed in a liquid during the collapse of a spherical cavity, London Edinburgh Dublin Philos. Mag. J. Sci. 34, 94 (1970).
2. J. P. Franc, The Rayleigh-Plesset equation: A simple and powerful tool to understand various aspects of cavitation, edited by L. d’Agostino, and M. V. Salvetti, Courses and Lectures-International Center For Mechanical Sciences (Springer, Vienna, 2007).
3. C. E. Brennen, Cavitation and Bubble Dynamics (Oxford University Press, Oxford, 1995).
4. A. R. Klotz, and K. Hynynen, Simulations of the Devin and Zudin modified Rayleigh-Plesset equations to model bubble dynamics in a tube, Tech. Acoust. 11, 1 (2010).
5. C. Browne, R. F. Tabor, D. Y. C. Chan, R. R. Dagastine, M. Ashok-kumar, and F. Grieser, Bubble coalescence during acoustic cavitation in aqueous electrolyte solutions, Langmuir 27, 12025 (2011).