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Chin. Phys. B, 2020, Vol. 29(9): 094301    DOI: 10.1088/1674-1056/ab943e

Acoustic radiation force on thin elastic shells in liquid

Run-Yang Mo(莫润阳), Jing Hu(胡静), Shi Chen(陈时), Cheng-Hui Wang(王成会)
Shaanxi Key Laboratory of Ultrasonics, School of Physics and Information Technology, Shaanxi Normal University, Xi'an 710119, China
Abstract  Based on the coupled acoustic scattering of two neighboring fluid-filled thin elastic shells suspending in an unbounded viscous liquid, an analytical method is developed to calculate the acoustic radiation force (ARF) of the shells. Two physical effects are taken into account: elastic radiation scattering and the multiple interactions of shells. Numerical results reveal that the magnitude of ARF can be enhanced by the sound radiation from the elastic shell undergoing forced vibrations and two resonant peaks can be observed on the ARF function curves. The feature of the lower peak is determined by the interactions and acoustic response of the back shell. The attractive forces can be obtained in the low kR1 band for the case of radius ratio R2/R1>1, while the magnitude of ARF at the lower peak may be influenced to some extent by acoustic shielding phenomenon for the case of radius ratio R2/R1<1. Accordingly, the interactions of particles cannot be ignored. The results may provide a theoretical basis for precisive manipulation of multiple particle systems.
Keywords:  thin elastic shell      radiation force      elastic radiation scattering      mutual interactions  
Received:  06 March 2020      Revised:  11 May 2020      Published:  05 September 2020
PACS:  43.25.+y (Nonlinear acoustics)  
  43.35.+d (Ultrasonics, quantum acoustics, and physical effects of sound)  
Fund: Project supported by the National Natural Science Foundation of China (Grant Nos. 11974232, 11727813, 11474191, and 11474192).
Corresponding Authors:  Cheng-Hui Wang     E-mail:

Cite this article: 

Run-Yang Mo(莫润阳), Jing Hu(胡静), Shi Chen(陈时), Cheng-Hui Wang(王成会) Acoustic radiation force on thin elastic shells in liquid 2020 Chin. Phys. B 29 094301

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