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Study of cavitation noise without subharmonics
Russian version
DOI: 10.21883/TPL.2023.03.55692.19455
Kotukhov A. V1, Efremov D. V. 2, Bannikova I. A. 2, Bayandin Yu. V. 2, Uvarov S. V. 2, Naimark O. B. 2, Zharko N. A. 1, Dezhkunov N. V. 1
1Belarusian State University of Informatics and Radioelectronics, Minsk, Belarus
2Institute of Continuous Media Mechanics, Ural Branch, Russian Academy of Sciences, Perm, Russia
Email: efremov.d@icmm.ru, malgacheva@icmm.ru, buv@icmm.ru, usv@icmm.ru, naimark@icmm.ru, natalya1357942@mail.ru, dnv@bsuir.by
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The evolution of the cavitation noise (CN) spectra in the field of a focusing emitter with an increase in the intensity of ultrasound (US) was studied. Spectra without subharmonics f0/2 were recorded for the first time, where f0 is the frequency of the ultrasound generating cavitation,. Such a spectrum is observed in partially degassed water at a high duty cycle of ultrasonic pulses. The threshold for the appearance of sonoluminescence (SL) coincides with the threshold for the appearance of the frequency f0/2 in the CR spectrum. In a pulsed field at an ultrasonic intensity much higher than the cavitation threshold, the SL intensity increases with an increase in the duty cycle of the pulses, while the intensity of the f0/2 line in the CS spectrum decreases. Keywords: sonoluminescence, subharmonics.
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