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Theory of the collapsing axisymmetric cavity

We investigate the collapse of an axisymmetric cavity or bubble inside a fluid of small viscosity, like water. Any effects of the gas inside the cavity as well as of the fluid viscosity are neglected. Using a slender-body description, we show that the minimum radius of the cavity scales like $h_0 \propto t'^α$, where $t'$ is the time from collapse. The exponent $α$ very slowly approaches a universal value according to $α=1/2 + 1/(4\sqrt{-\ln(t')})$. Thus, as observed in a number of recent experiments, the scaling can easily be interpreted as evidence of a single non-trivial scaling exponent. Our predictions are confirmed by numerical simulations.

preprint2006arXivOpen access
J. EggersM. A. FontelosD. LeppinenJ. H. Snoeijer
physics.flu-dyn
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Open access4 authors1 topic
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J. EggersM. A. FontelosD. LeppinenJ. H. Snoeijer

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