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Related Experiment Video

Updated: Jan 29, 2026

Induction of Microstreaming by Nonspherical Bubble Oscillations in an Acoustic Levitation System
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Resonant acoustic scattering by two spherical bubbles.

Tony Valier-Brasier1, Jean-Marc Conoir1

  • 1Sorbonne Universités, Centre National de la Recherche Scientifique, Institut Jean Le Rond d'Alembert (∂'Alembert), UMR 7190, 4, Place Jussieu, Paris, F-75005, France.

The Journal of the Acoustical Society of America
|February 4, 2019
PubMed
Summary
This summary is machine-generated.

Acoustic fields interacting with two bubbles reveal complex vibrational modes. The symmetric resonance mode significantly influences scattering, even though the antisymmetric mode is not directly detected.

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Area of Science:

  • Acoustics
  • Fluid Dynamics
  • Bubble Dynamics

Background:

  • Understanding bubble interactions in acoustic fields is crucial for various applications.
  • Previous models often simplified bubble behavior, neglecting key physical phenomena.

Purpose of the Study:

  • To investigate the mutual interaction of two bubbles in an acoustic field.
  • To develop a comprehensive model accounting for viscous, thermal, and surface tension effects.
  • To analyze the symmetric and antisymmetric resonance modes of bubble pairs.

Main Methods:

  • Utilized multiple scattering theory with spherical harmonics expansions and the addition theorem.
  • Incorporated viscous dissipation, thermal dissipation, and surface tension for accurate scattering coefficient calculations.
  • Derived the characteristic equation for symmetric and antisymmetric resonances.

Main Results:

  • A large number of vibration modes are necessary to accurately describe the acoustic field.
  • The scattering cross-section peaks at the symmetric resonance frequency for identical bubbles.
  • The antisymmetric mode, though undetected directly, contributes to scattering near the symmetric resonance.

Conclusions:

  • The study provides an exact characteristic equation for two-bubble acoustic resonance.
  • Numerical results highlight the importance of multiple vibration modes and the subtle influence of the antisymmetric mode on scattering.
  • The findings enhance the understanding of acoustic wave interaction with bubble clusters.