有界黏性流体中自由球形粒子的声辐射力  

作　　者：刘腾 乔玉配 宫门阳 刘晓宙[1] LIU Teng;QIAO Yupei;GONG Menyang;LIU Xiaozhou(Key Laboratory of Modern Acoustics,Institute of Acoustics and School of Physics,Nanjing University,Nanjing 210093,China;School of Physics and Electronic Science,Guizhou Normal University,Guiyang 550025,China;School of Electronic and Information Engineering,Nanjing University of Information Science and Technology,Nanjing 210044,China)

机构地区：[1]南京大学声学研究所,近代声学教育部重点实验室,南京210093 [2]贵州师范大学物理与电子科学学院,贵阳550025 [3]南京信息工程大学电子与信息工程学院,南京210044

出　　处：《物理学报》2025年第1期184-193,共10页Acta Physica Sinica

基　　金：国家重点研发计划(批准号:2020YFA0211400);国家自然科学基金(批准号:12174192,12204119);声场声信息国家重点实验室开放课题研究基金(批准号:SKLA202410);贵州省科技计划(批准号:ZK[2023]249)资助的课题。

摘　　要：声辐射力的研究是提高粒子操控技术的精确性和有效性的重要基础.基于声波动理论,建立了有界黏性流体中自由球形粒子的声辐射力计算模型,结合球函数的加性定理,推导了平面波垂直入射情况下相应的声辐射力解析表达式.理论计算中考虑了小球为自由状态,将粒子的动力学方程作为计算声辐射力的修正项.在考虑流体黏度、粒子材料、粒子位置以及边界等因素对声辐射力影响的基础上进行数值计算.结果表明,随着流体黏度的增大,声辐射力曲线的共振峰被拓宽;相比于液体材料的小球,弹性材料小球的声辐射力的振荡现象更明显;随着阻抗边界反射系数的增大,声辐射力振幅增大;小球位置的不同主要影响其声辐射力的振荡现象.该研究为有界黏性流体中自由粒子的声操控提供了理论基础,并有助于生物医学等领域更好地利用声辐射力操控粒子.The manipulation of particles by acoustic radiation force(ARF)has the advantages of non-invasiveness,high biocompatibility,and wide applicability.The study of acoustic radiation force is an important foundation for improving the accuracy and effectiveness of particle manipulation technology.Based on the acoustic wave theory,a theoretical model for the ARF of a free spherical particle in a bounded viscous fluid is established.The ARF for the case of a normal incident plane wave is derived by applying the translation addition theorem to spherical function.The dynamic equation of a free sphere is required as a correction term for calculating the ARF.The effects of the fluid viscosity,particle material,particle distance from boundary,and the boundary on the ARF are analyzed by numerical simulation.The results show that the resonance peak of the ARF curve is broadened with the increase of the viscosity of the fluid.Compared with the values of the ARFs of a PE sphere in a viscous and an ideal fluid,the fluid viscosity has a small influence and the viscosity effect can be ignored when kR is much less than 1.However,for the cases where kR is greater than or equal to 1,the amplitude of the ARF experienced by a particle in a viscous fluid is much greater than that in an ideal fluid.The influence of fluid viscosity on the ARF is significant and cannot be ignored.Moreover,compared with a liquid material sphere,the oscillation of ARF in an elastic material sphere is more pronounced.This is because the momentum transfer between sound waves and elastic materials is greater than that between sound waves and liquid materials.In addition,the amplitude of the ARF increases with the increase of the reflection coefficient of the impedance boundary,but its resonance frequency is not affected.Finally,the position of the sphere mainly affects the oscillation phenomenon of its ARF.The peaks and dips of the ARF become more densely packed with the growth of distance-to-radius.It is worth noting that the reflection coefficient mainly affect

关 键 词：黏性流体 自由球形粒子 声辐射力 阻抗边界 

分 类 号：O357[理学—流体力学] O422.2[理学—力学]