Abstract
The variation of the sonoluminescence and the subharmonic component of the cavitation noise spectrum is investigated in a solution of sodium chloride in water.
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M. S. Plesset, Trans. ASME, Ser. D: J. Basic Eng.,85, No. 3, 360–364 (1963).
M. S. Plesset, Corrosion,18, No. 5, 181–188 (1962).
W. H. Wheelen, in: Proc. 1955 NPL Symp. Cavitation in Hydrodynamics, Paper 21 (1956).
R. T. Knapp, J. W. Daily, and F. G. Hammitt, Cavitation, McGraw-Hill, New York (1970).
G. Iernetti, Acustica,23, 198–207 (1970).
M. G. Sirotyuk, in: High-Intensity Ultrasonic Fields, L. D. Rozenberg (ed.), Plenum Press, New York-London (1971), pp. 263–343.
V. A. Akulichev, in: High-Intensity Ultrasonic Fields, L. D. Rozenberg (ed.), Plenum Press, New York-London (1971), pp. 203–259.
Handbook of Chemistry [in Russian], Vol. 3, Moscow (1978).
A. Francescutto and R. Nabergoi, Acustic,41, 215–220 (1978).
W. Lauterborn, in: Proc. 1973 Symp. Finite-Amplitude Wave Effects in fluids, Copenhagen (1974), p. 195.
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Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 51, No. 3, pp. 417–424, September, 1986.
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Dezhkunov, N.V., Iernetti, G., Prokorenko, P.P. et al. Sonoluminescence and subharmonic generation in a cavitation zone of aqueous sodium chloride solutions. Journal of Engineering Physics 51, 1052–1058 (1986). https://doi.org/10.1007/BF00870896
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DOI: https://doi.org/10.1007/BF00870896