• Corpus ID: 202558491

Critical corrections to formulations of nonlinear energy dissipation of ultrasonically excited bubbles and a unifying parameter to asses and enhance bubble activity in applications

@article{Sojahrood2019CriticalCT,
  title={Critical corrections to formulations of nonlinear energy dissipation of ultrasonically excited bubbles and a unifying parameter to asses and enhance bubble activity in applications},
  author={A. J. Sojahrood and Hossein Haghi and Raffi Karshafian and M. C. Kolios},
  journal={arXiv: Applied Physics},
  year={2019}
}
Nonlinear oscillations of bubbles can significantly increase the attenuation of the host media. Optimization of bubble related applications needs a realistic estimation of the medium attenuation and bubble activity. A correct estimation of the wave attenuation in bubbly media requires an accurate estimation of the power dissipated by nonlinear oscillations of bubbles. Pioneering work of Louisnard \cite{1} meticulously derived the nonlinear energy terms for viscous and thermal damping; however… 
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