M. A. Guzev, E. P. Dats, Yu. P. Pahkalyuk, V. M. Chudnovskii, “Numerical modeling of the evolution of a vapor bubble under conditions of laser-induced cavitation”, Dal'nevost. Mat. Zh., 23:2 (2023), 178

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Dal'nevostochnyi Matematicheskii Zhurnal, 2023, Volume 23, Number 2, Pages 178–183
DOI: https://doi.org/10.47910/FEMJ202315 (Mi dvmg516)

Numerical modeling of the evolution of a vapor bubble under conditions of laser-induced cavitation

M. A. Guzev^a, E. P. Dats^a, Yu. P. Pahkalyuk^b, V. M. Chudnovskii^a

^a Institute for Applied Mathematics, Far Eastern Branch, Russian Academy of Sciences, Vladivostok
^b Pacific State Medical University, Vladivostok

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DOI: https://doi.org/10.47910/FEMJ202315

Abstract: Based on the Lee vaporization-condensation model, numerical solutions were obtained that describe the process of growth and collapse of bubbles formed at the end of an optical fiber during laser heating. The simulation parameters are found for which the numerical solutions correspond to the observed experimental data. Using numerical modeling, the features associated with the dynamics of the growth-collapse of a cavitation bubble and the formation of heated jets are explained

Key words: lasers, heat conduction, cavitation, evaporation, condensation.

Funding agency	Grant number
Russian Science Foundation	22-19-00189
The work was carried out with financial support from the Russian Science Foundation (project No. 22-19-00189).

Received: 09.10.2023
Accepted: 14.11.2023

Document Type: Article

UDC: 532.5

MSC: Primary 35Q79; Secondary 76D07

Language: Russian

Citation: M. A. Guzev, E. P. Dats, Yu. P. Pahkalyuk, V. M. Chudnovskii, “Numerical modeling of the evolution of a vapor bubble under conditions of laser-induced cavitation”, Dal'nevost. Mat. Zh., 23:2 (2023), 178–183

Citation in format AMSBIB

\Bibitem{GuzDatPah23}

\by M.~A.~Guzev, E.~P.~Dats, Yu.~P.~Pahkalyuk, V.~M.~Chudnovskii

\paper Numerical modeling of the evolution of a vapor bubble under conditions of laser-induced cavitation

\jour Dal'nevost. Mat. Zh.

\yr 2023

\vol 23

\issue 2

\pages 178--183

\mathnet{http://mi.mathnet.ru/dvmg516}

\crossref{https://doi.org/10.47910/FEMJ202315}

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https://www.mathnet.ru/eng/dvmg/v23/i2/p178

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