Litcius/Paper detail

Acoustic Resonance Frequencies of Underwater Toroidal Bubbles

M. Alloul, Benjamin Dollet, Olivier Stéphan, Emmanuel Bossy, Catherine Quilliet, Philippe Marmottant

2022Physical Review Letters11 citationsDOIOpen Access PDF

Abstract

Underwater bubbles display an acoustic resonance frequency close to spherical ones. In order to obtain a resonance significantly deviating from the spherical case, we stabilize bubbles in toroidal frames, resulting in bubbles which can be slender while still compact. For thin tori the resonance frequency increases greatly. Between a pair of bubble rings, we can achieve a flat acoustic pressure field for a critical distance between rings, a condition reminiscent of Helmholtz coils in magnetostatics. This opens the possibility to shape the acoustic field using long tunnels of rings.

Topics & Concepts

BubbleToroidResonance (particle physics)UnderwaterAcousticsAcoustic resonancePhysicsHelmholtz free energyTorusHelmholtz resonatorSound pressureMechanicsOpticsAtomic physicsGeometryPlasmaMathematicsResonatorOceanographyGeologyQuantum mechanicsUnderwater Acoustics ResearchAcoustic Wave Phenomena ResearchMicrofluidic and Bio-sensing Technologies