Three-dimensional trapping and manipulation of a Mie particle by hybrid acoustic focused petal beams
Acoustic manipulations of microparticles have significant implications in physics, chemistry, biology, and biomedicine. For large Mie particles, both the scattering force and the gradient force affect the trapping and manipulation behaviors, and thus, a passive acoustic tweezer (AT) for three-dimens...
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sg-ntu-dr.10356-1708152023-10-14T16:48:04Z Three-dimensional trapping and manipulation of a Mie particle by hybrid acoustic focused petal beams Luo, Yan-Chun Li, Xin-Rui Wu, Da-Jian Yao, Jie Zhu, Xing-Feng Du, Liang-Fen Liu, Xiao-Jun School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Acoustic Beams Three Dimensional Trapping Acoustic manipulations of microparticles have significant implications in physics, chemistry, biology, and biomedicine. For large Mie particles, both the scattering force and the gradient force affect the trapping and manipulation behaviors, and thus, a passive acoustic tweezer (AT) for three-dimensionally manipulating a Mie particle remains challenging. Here, a passive AT based on a hybrid acoustic artificial plate is proposed to generate a hybrid acoustic focused petal beam (HAFPB) for capturing and manipulating a Mie microparticle in three dimensions. In the HAFPB, a lateral acoustic focused petal beam and an axial bifocal acoustic beam (BAB) combine to create a central zero-intensity zone for particle trapping, which can be adjusted by modulating the topological charge of the HAFPB. The acoustic radiation forces (ARFs) acting on large Mie particles with different diameters are investigated. The ARFs on the polystyrene sphere are greatly influenced by the particle size. If the particle is larger than the central zero-intensity zone, an AT with a larger topological charge and a stronger BAB is required for trapping and manipulating this larger particle. Finally, the experiments demonstrate that the AT can stably trap and manipulate a large Mie particle in three dimensions in water. Published version This work is supported by the National Natural Science Foundation of China under (Grants No. 11874222, No. 12027808, No. 12074191, and No. 12174197) and the Postgraduate Research & Practice Innovation Program of Jiangsu Province (Grant No. KYCX21_1321). 2023-10-11T08:10:53Z 2023-10-11T08:10:53Z 2022 Journal Article Luo, Y., Li, X., Wu, D., Yao, J., Zhu, X., Du, L. & Liu, X. (2022). Three-dimensional trapping and manipulation of a Mie particle by hybrid acoustic focused petal beams. Physical Review Applied, 17(6), 064059-. https://dx.doi.org/10.1103/PhysRevApplied.17.064059 2331-7019 https://hdl.handle.net/10356/170815 10.1103/PhysRevApplied.17.064059 2-s2.0-85133724594 6 17 064059 en Physical Review Applied © 2022 American Physical Society. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1103/PhysRevApplied.17.064059 application/pdf |
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Engineering::Mechanical engineering Acoustic Beams Three Dimensional Trapping Luo, Yan-Chun Li, Xin-Rui Wu, Da-Jian Yao, Jie Zhu, Xing-Feng Du, Liang-Fen Liu, Xiao-Jun Three-dimensional trapping and manipulation of a Mie particle by hybrid acoustic focused petal beams |
| description |
Acoustic manipulations of microparticles have significant implications in physics, chemistry, biology, and biomedicine. For large Mie particles, both the scattering force and the gradient force affect the trapping and manipulation behaviors, and thus, a passive acoustic tweezer (AT) for three-dimensionally manipulating a Mie particle remains challenging. Here, a passive AT based on a hybrid acoustic artificial plate is proposed to generate a hybrid acoustic focused petal beam (HAFPB) for capturing and manipulating a Mie microparticle in three dimensions. In the HAFPB, a lateral acoustic focused petal beam and an axial bifocal acoustic beam (BAB) combine to create a central zero-intensity zone for particle trapping, which can be adjusted by modulating the topological charge of the HAFPB. The acoustic radiation forces (ARFs) acting on large Mie particles with different diameters are investigated. The ARFs on the polystyrene sphere are greatly influenced by the particle size. If the particle is larger than the central zero-intensity zone, an AT with a larger topological charge and a stronger BAB is required for trapping and manipulating this larger particle. Finally, the experiments demonstrate that the AT can stably trap and manipulate a large Mie particle in three dimensions in water. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Luo, Yan-Chun Li, Xin-Rui Wu, Da-Jian Yao, Jie Zhu, Xing-Feng Du, Liang-Fen Liu, Xiao-Jun |
| format |
Article |
| author |
Luo, Yan-Chun Li, Xin-Rui Wu, Da-Jian Yao, Jie Zhu, Xing-Feng Du, Liang-Fen Liu, Xiao-Jun |
| author_sort |
Luo, Yan-Chun |
| title |
Three-dimensional trapping and manipulation of a Mie particle by hybrid acoustic focused petal beams |
| title_short |
Three-dimensional trapping and manipulation of a Mie particle by hybrid acoustic focused petal beams |
| title_full |
Three-dimensional trapping and manipulation of a Mie particle by hybrid acoustic focused petal beams |
| title_fullStr |
Three-dimensional trapping and manipulation of a Mie particle by hybrid acoustic focused petal beams |
| title_full_unstemmed |
Three-dimensional trapping and manipulation of a Mie particle by hybrid acoustic focused petal beams |
| title_sort |
three-dimensional trapping and manipulation of a mie particle by hybrid acoustic focused petal beams |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170815 |
| _version_ |
1781793723463499776 |