Mechanisms for Stable Sonoluminescence

Cambridge; Chicago; Chicago IL); David Oxtoby (Department of Chemistry; Department of Mathematics; Detlef Lohse (Fachbereich Physik der Universit\"at Marburg; Germany; IL); James Franck Institute; MA)

arxiv: chao-dyn/9510008 · v1 · submitted 1995-10-13 · chao-dyn · nlin.CD

Mechanisms for Stable Sonoluminescence

Michael Brenner (Department of Mathematics , MIT , Cambridge , MA) , Detlef Lohse (Fachbereich Physik der Universit\"at Marburg , Marburg , Germany , Department of Mathematics

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The University of Chicago Chicago IL) David Oxtoby (Department of Chemistry James Franck Institute Chicago IL) Todd Dupont (Department of Mathematics

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classification chao-dyn nlin.CD

keywords bubbleexperimentssonoluminescenceambientconcentrationmechanismsstableacoustic

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A gas bubble trapped in water by an oscillating acoustic field is expected to either shrink or grow on a diffusive timescale, depending on the forcing strength and the bubble size. At high ambient gas concentration this has long been observed in experiments. However, recent sonoluminescence experiments show that in certain circumstances when the ambient gas concentration is low the bubble can be stable for days. This paper presents mechanisms leading to stability which predict parameter dependences in agreement with the sonoluminescence experiments.

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Mechanisms for Stable Sonoluminescence

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