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Suslick, K.S., McNamara, W.B. and Didenko, Y. (1999) Hot Spot Conditions during Multi-Bubble Cavitation. In: Crum, L.A., Mason, T.J., Reisse, J. and Suslick, K.S., Eds., Sonochemistry and Sonoluminescence, Kluwer Publishers, Dordrecht, 191-204.
https://doi.org/10.1007/978-94-015-9215-4_16

has been cited by the following article:

• TITLE: Sonoluminescence as the PeTa Radiation

  AUTHORS: Vitali A. Tatartchenko

  KEYWORDS: Cavitational Luminescence (CL), Sonoluminescence (SL), PeTa (Perel’Man-Tatartchenko) Effect, First-Order Phase Transitions, Evaporation, Condensation

  JOURNAL NAME: Optics and Photonics Journal, Vol.7 No.2, February 22, 2017

  ABSTRACT: In this paper, a model of cavitational luminescence (CL) and sonoluminescence (SL) is developed. The basis of the model is the PeTa (Perel’man-Tatartchenko) effect—a characteristic radiation under first-order phase transitions. The main role is given to the liquid, which is where the cavitation occurs. The evaporation of the liquid and subsequent vapor condensation inside the bubble are responsible for the CL and SL. Apparently, the dissolved gases and other impurities in the liquid are responsible for peaks that appear at the background of the main spectrum. They most likely are excited by a shock wave occurred during cavitation. The model explains the main experimental data. Thus, no mystery, no plasma, no Hollywood.