Dynamics of polarization-tuned mirror symmetry breaking in a rotationally symmetric system

Dynamics of polarization-tuned mirror symmetry breaking in a rotationally symmetric system

Lateral momentum conservation is typically kept in a non-absorptive rotationally symmetric system through mirror symmetry via Noether’s theorem when illuminated by a homogeneous light wave. Therefore, it is still very challenging to break the mirror symmetry and generate a lateral optical force (LOF...

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Published in:Nature communications Vol. 15; no. 1; pp. 5586 - 12
Main Authors: Zhang, Yu, Li, Zhibin, Che, Zhen, Zhang, Wang, Zhang, Yusen, Lin, Ziqi, Lv, Zhan, Wu, Chunling, Han, Longwei, Tang, Jieyuan, Zhu, Wenguo, Xiao, Yi, Zheng, Huadan, Zhong, Yongchun, Chen, Zhe, Yu, Jianhui
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 03-07-2024
Nature Publishing Group
Nature Portfolio
Subjects:
639/624
639/624/1107
639/624/400
Absorptivity
Broken symmetry
Humanities and Social Sciences
Light
Light scattering
multidisciplinary
Plane waves
Polarization
Science
Science (multidisciplinary)
Symmetry
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Summary:Lateral momentum conservation is typically kept in a non-absorptive rotationally symmetric system through mirror symmetry via Noether’s theorem when illuminated by a homogeneous light wave. Therefore, it is still very challenging to break the mirror symmetry and generate a lateral optical force (LOF) in the rotationally symmetric system. Here, we report a general dynamic action in the SO (2) rotationally symmetric system, originating from the polarization-tuned mirror symmetry breaking (MSB) of the light scattering. We demonstrate theoretically and experimentally that MSB can be generally applied to the SO (2) rotationally symmetric system and tuned sinusoidally by polarization orientation, leading to a highly tunable and highly efficient LOF (9.22 pN/mW/μm −2 ) perpendicular to the propagation direction. The proposed MSB mechanism and LOF not only complete the sets of MSB of light-matter interaction and non-conservative force only using a plane wave but also provide extra polarization manipulation freedom. In a SO (2) rotationally symmetric system, a general polarization-tuned mirror symmetry breaking mechanism was reported to highly efficiently generate a lateral optical force, enriching the optical manipulation mechanism for mirror-symmetric objects.
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ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-024-49696-x