Scattering properties of acoustic beams off spinning objects: Induced radiation force and torque

Understanding the acoustic scattering and radiation force and torque of an object is important in various fields, such as underwater communication, acoustic imaging, and noninvasive characterization, as well as biomedical ultrasound. Generally, acoustic scattering is considered for static (non-movin...

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Veröffentlicht in:	Applied physics letters 2022-10, Vol.121 (14)
Hauptverfasser:	Farhat, Mohamed, Guenneau, Sebastien, Chen, Pai-Yen, Wu, Ying
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustic imaging Acoustic properties Acoustic scattering Acoustics Applied physics Axes of rotation Axis movements Compressibility Gaussian beams (optics) Metamaterials Optics Physics Plane waves Radiation Torque Underwater acoustics Underwater communication
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creator	Farhat, Mohamed Guenneau, Sebastien Chen, Pai-Yen Wu, Ying
description	Understanding the acoustic scattering and radiation force and torque of an object is important in various fields, such as underwater communication, acoustic imaging, and noninvasive characterization, as well as biomedical ultrasound. Generally, acoustic scattering is considered for static (non-moving) objects and the impinging signal is typically a plane wave. Here, we consider scattering off cylindrical objects in spinning motion around the axis of rotational symmetry. We investigate the radiation force and torque induced by various incident signals, e.g., cylindrical diverging and converging beams as well as quasi-Gaussian beams of different orders. It is assumed in this study (unless otherwise stated) that the acoustic parameters of the objects (density and compressibility) are identical to those of the surrounding medium, in order to isolate the effects purely attributed to rotation. The scenario of a spinning inhomogeneous object is also shown to play a prominent role for generating torque with single plane waves. Our findings may add to the current interest in time-varying and moving metamaterials and open vistas in manipulation of movement and position of ultra-small objects via acoustic beams.
doi_str_mv	10.1063/5.0097041
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source	AIP Journals Complete; Alma/SFX Local Collection
subjects	Acoustic imaging Acoustic properties Acoustic scattering Acoustics Applied physics Axes of rotation Axis movements Compressibility Gaussian beams (optics) Metamaterials Optics Physics Plane waves Radiation Torque Underwater acoustics Underwater communication
title	Scattering properties of acoustic beams off spinning objects: Induced radiation force and torque
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