微通道
物理
旋转(数学)
粒子(生态学)
声波
机械
顺时针方向的
绕固定轴旋转
磁层粒子运动
声辐射力
驻波
声学
经典力学
光学
超声波
磁场
几何学
地质学
振幅
海洋学
量子力学
数学
作者
S. Z. Hoque,K. Bhattacharyya,A. K. Sen
标识
DOI:10.1103/physrevfluids.7.114204
摘要
We study the dynamics of an oblate shape micro-particle exposed to standing bulk acoustic waves in a microchannel. A parametric study examines the effects of initial orientation, aspect ratio, size, and initial location of the particle on the translational and rotational motion. We find that the particle undergoes rotation to minimize the acoustic radiation torque potential. The direction of rotation of the particle was found to change from anticlockwise to clockwise beyond a critical aspect ratio and larger particles are found to rotate faster and closer to the nodal plane. These results can be relevant to the dynamics of an elongated microorganism or biological cells in an acoustic field.
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