Bibliographie
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Yu. A. Kobelev and L. A. Ostrovskii.
Collective self-effect of sound in a liquid with gas bubbles.
JETP Lett., 37(1):-7, 1983.
- 2
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V. N. Alekseev and V. P. Yushin.
Distribution of bubbles in acoustic cavitation.
Sov. Phys. Acoust., 32(6):-472, 1986.
- 3
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Yu. A. Kobelev, L. A. Ostrovskii, and A. M. Sutin.
Self-illumination effect for acoustic waves in a liquid with gas
bubbles.
JETP Lett., 30(7):-398, 1979.
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Yu. A. Kobelev and L. A. Ostrovskii.
Nonlinear acoustic phenomena due to bubble drift in a gas-liquid
mixture.
J. Acoust. Soc. Am., 85(2):-629, 1989.
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D. Y. Hsieh and M. S. Plesset.
Theory of rectified diffusion of mass into gas bubbles.
J. Acoust. Soc. Am., 33:-215, 1961.
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A. Eller and H. G. Flynn.
Rectified diffusion during nonlinear pulsations of cavitation
bubbles.
J. Acoust. Soc. Am., 37:-503, 1965.
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L. A. Crum and G. M. Hansen.
Generalized equations for rectified diffusion.
J. Acoust. Soc. Am., 72(5):-1592,
1982.
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I. Akhatov, N. Gumerov, C.D. Ohl, U. Parlitz, and W. Lauterborn.
The role of surface tension in stable single bubble sonoluminescence.
Phys. Rev. Lett., 78(2):-230, 1997.
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S. Hilgenfeldt, D. Lohse, and M. P. Brenner.
Phase diagrams for sonoluminescing bubbles.
Phys. Fluids, 8(11):-2826, 1996.
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M. M. Fyrillas and A. J. Szeri.
Dissolution or growth of soluble spherical oscillating bubbles.
J. Fluid Mech., 277:-407, 1994.
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M. S. Plesset.
On the stability of fluid flows with spherical symmetry.
J. Appl. Phys., 25(1):-98, 1954.
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A. Prosperetti.
Viscous effects on perturbed spherical flows.
Q. Appl. Math., 34:-352, 1977a.
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C. C. Wu and P. H. Roberts.
Bubble shape instability and sonoluminescence.
Phys. Lett. A, 250:-136, 1998.
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A. Prosperetti and Y. Hao.
Modelling of spherical gas bubble oscillations and sonoluminescence.
Phil. Trans. R. Soc. Lond. A, 357:-223, 1999.
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H. Lin, B. D. Storey, and A. J. Szeri.
Rayleigh-taylor instability of violently collapsing bubbles.
Phys. Fluids, 14(8):-2928,
2002a.
- 16
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D. F. Gaitan, L. A. Crum, C. C. Church, and R. A. Roy.
Sonoluminescence and bubble dynamics for a single, stable, cavitation
bubble.
J. Acoust. Soc. Am., 91(6):-3183,
1992.
- 17
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R. G. Holt and D. F. Gaitan.
Observation of stability boundaries in a parameter space of single
bubble sonoluminescence.
Phys. Rev. Lett., 77:-3794, 1996.
- 18
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J. A. Ketterling and R. E. Apfel.
Extensive experimental mapping of sonoluminescence parameter space.
Phys. Rev. E, 61(4):-3837, 2000.
- 19
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D. Zardi and G. Seminara.
Chaotic mode competition in the shape oscillations of pulsating
bubbles.
J. Fluid Mech., 286:-276, 1995.
- 20
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A. Prosperetti.
Thermal effects and damping mechanisms in the forced radial
oscillations of gas bubbles in liquids.
J. Acoust. Soc. Am., 61(1):-27,
1977b.
- 21
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H. Lin, B. D. Storey, and A. J. Szeri.
Inertially driven inhomogeneities in violently collapsing bubbles:
the validity of the rayleigh-plesset equation.
J. Fluid Mech., 452(10):-162,
2002b.
- 22
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V. Kamath and A. Prosperetti.
Numerical integration methods in gas-bubble dynamics.
J. Acoust. Soc. Am., 85(4):-1548,
1989.
- 23
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A. Prosperetti.
The thermal behaviour of oscillating gas bubbles.
J. Fluid. Mech., 222:-616, 1991.
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B. D. Storey and A.J. Szeri.
Water vapour, sonoluminescence and sonochemistry.
Proc. R. Soc. Lond. A, 456:-1709, 2000.
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S. Hilgenfeldt, M. P. Brenner, S. Grossman, and D. Lohse.
Analysis of rayleigh-plesset dynamics for sonoluminescing bubbles.
J. Fluid Mech., 365:-204, 1998.
Olivier LOUISNARD