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基于超表面实现力和扭矩同时控制的可编程声镊的端到端逆向设计。

End-to-end inverse design for programmable acoustic tweezers with simultaneous force and torque control by metasurfaces.

作者信息

Liu Yu, Dong Hao-Wen, Jiang Xue, Xiao Han-Jie, Zhang Chuan-Xin, Wang Yue-Sheng

机构信息

Department of Mechanics, School of Mechanical Engineering, Tianjin University, Tianjin 300350, China.

Institute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, China.

出版信息

Sci Adv. 2025 Sep 12;11(37):eady1855. doi: 10.1126/sciadv.ady1855. Epub 2025 Sep 10.

DOI:10.1126/sciadv.ady1855
PMID:40929250
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12422199/
Abstract

Acoustic tweezers leverage acoustic radiation forces for noncontact manipulation. One of the core bottlenecks in multidimensional manipulation is the lack of a systematic design methodology, which prevents the generation of an acoustic field that simultaneously meets the collaborative control requirements of multi-degree-of-freedom forces and torques, making it difficult to achieve precise control under conditions of stable suspension, high-frequency rotation, and complex spatial constraints. To address this challenge, we develop an end-to-end inverse design methodology for acoustic tweezers based on coding metasurfaces, establishing a dual-objective, dual-scale optimization paradigm. At the microscale, the phase modulation and transmission efficiency are co-optimized through coupled physical models. While at the mesoscale, the particle suspension and rotation dynamics are considered. Based on the inverse design framework constructed with a finite-bit element library, we successfully optimized the metasurface configuration with specific acoustic response characteristics and achieved noncontact, multi-degree-of-freedom customized manipulation of individual particles. This approach provides implementation pathways for adaptive multiscale strategies in precision engineering applications.

摘要

声镊利用声辐射力进行非接触式操控。多维操控的核心瓶颈之一是缺乏系统的设计方法,这阻碍了产生同时满足多自由度力和扭矩协同控制要求的声场,使得在稳定悬浮、高频旋转和复杂空间约束条件下难以实现精确控制。为应对这一挑战,我们基于编码超表面开发了一种用于声镊的端到端逆向设计方法,建立了双目标、双尺度优化范式。在微观尺度上,通过耦合物理模型共同优化相位调制和传输效率。而在中观尺度上,则考虑粒子的悬浮和旋转动力学。基于用有限元库构建的逆向设计框架,我们成功优化了具有特定声学响应特性的超表面配置,并实现了对单个粒子的非接触、多自由度定制操控。这种方法为精密工程应用中的自适应多尺度策略提供了实现途径。

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