Characterization of wave fields using transient motion of microspheres under acoustic radiation force

Y. Wang, B. Anthony
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引用次数: 1

Abstract

The acoustic radiation force has been used in many engineering applications and devices. Good performance of these applications require faithful reproduction of the designed wave field in the device. However, mapping out the wave field using current techniques, such as hydrophone measurements, is challenging. This work demonstrates that the trajectories of the transient motion of microspheres moving to their equilibrium positions within a standing wave can be used to calculate the wave amplitude.The acoustic radiation force has been used in many engineering applications and devices. Good performance of these applications require faithful reproduction of the designed wave field in the device. However, mapping out the wave field using current techniques, such as hydrophone measurements, is challenging. This work demonstrates that the trajectories of the transient motion of microspheres moving to their equilibrium positions within a standing wave can be used to calculate the wave amplitude.
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声辐射作用下微球瞬态运动的波场表征
声辐射力已应用于许多工程应用和设备中。这些应用的良好性能要求在器件中忠实地再现设计的波场。然而,利用现有技术(如水听器测量)绘制波场是具有挑战性的。这项工作表明,微球在驻波内移动到平衡位置的瞬态运动轨迹可以用来计算波的振幅。声辐射力已应用于许多工程应用和设备中。这些应用的良好性能要求在器件中忠实地再现设计的波场。然而,利用现有技术(如水听器测量)绘制波场是具有挑战性的。这项工作表明,微球在驻波内移动到平衡位置的瞬态运动轨迹可以用来计算波的振幅。
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