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Literature DB >> 32338962

Momentum-Topology-Induced Optical Pulling Force.

Hang Li¹, Yongyin Cao¹, Bojian Shi¹, Tongtong Zhu², Yong Geng³, Rui Feng¹, Lin Wang¹, Fangkui Sun¹, Yuzhi Shi⁴, Mohammad Ali Miri⁵, Manuel Nieto-Vesperinas⁶, Cheng-Wei Qiu⁷, Weiqiang Ding^1,8.

Abstract

We report an ingenious mechanism to obtain robust optical pulling force by a single plane wave via engineering the topology of light momentum in the background. The underlying physics is found to be the topological transition of the light momentum from a usual convex shape to a starlike concave shape in the carefully designed background, such as a photonic crystal structure. The principle and results reported here shed insightful concepts concerning optical pulling, and pave the way for a new class of advanced optical manipulation technique, with potential applications of drug delivery and cell sorting.

Entities: Disease

Year: 2020 PMID： 32338962 DOI： 10.1103/PhysRevLett.124.143901

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

2 in total

1. The complex Maxwell stress tensor theorem: The imaginary stress tensor and the reactive strength of orbital momentum. A novel scenery underlying electromagnetic optical forces.

Authors: Manuel Nieto-Vesperinas; Xiaohao Xu
Journal: Light Sci Appl Date: 2022-10-12 Impact factor: 20.257

2. Optical Pulling Using Chiral Metalens as a Photonic Probe.

Authors: Miao Peng; Hui Luo; Zhaojian Zhang; Tengfang Kuang; Dingbo Chen; Wei Bai; Zhijie Chen; Junbo Yang; Guangzong Xiao
Journal: Nanomaterials (Basel) Date: 2021-12-13 Impact factor: 5.076

2 in total