Optical trapping and rotating of micro-particles using the circular Airy vortex beams

被引：32

作者：

Chen, Musheng ^{[1
,2
]}

Huang, Sujuan ^{[2
]}

Liu, Xianpeng ^{[2
]}

Chen, Yi ^{[2
]}

Shao, Wei ^{[2
]}

机构：

[1] Quanzhou Normal Univ, Coll Phys & Informat Engn, Key Lab Informat Funct Mat Fujian Higher Educ, Quanzhou 362000, Fujian, Peoples R China

[2] Shanghai Inst Adv Commun & Data Sci, Joint Int Res Lab Specialty Fiber Opt & Adv Commu, Key Lab Specialty Fiber Opt & Opt Access Networks, Shanghai 200444, Peoples R China

来源：

APPLIED PHYSICS B-LASERS AND OPTICS | 2019年 / 125卷 / 10期

关键词：

PROPAGATION PROPERTIES; RADIATION FORCES; MANIPULATION; PARTICLE; DYNAMICS;

D O I：

10.1007/s00340-019-7295-8

中图分类号：

O43 [光学];

学科分类号：

070207 ; 0803 ;

摘要：

The circular Airy vortex beams (CAVB) are attractive owing to their intriguing properties, such as autofocusing, and self-healing. In this paper, we experimentally study optical manipulation and rotation of the silica micro-particles by the use of the autofocusing circular Airy vortex beams, and analyze the dependence of rotational velocity on the topological charges. Experimental results prove that the circular Airy vortex beams have autofocusing property. With the increase of topological charges, the rotational velocity of the micro-particles first increases and then decreases after reaches a maximum. Optical trapping technology based on CAVB may enrich the possibility and manner for optical trapping and guiding micro-particles.

引用

页数：6

共 50 条

[11] Optical trapping with focused Airy beams
Zheng, Zhu
Zhang, Bai-Fu
Chen, Hao
Ding, Jianping
Wang, Hui-Tian
[J]. APPLIED OPTICS, 2011, 50 (01) : 43 - 49
[12] Optical transportation of micro-particles by non-diffracting Weber beams
Liu, Weiwei
Gao, Jie
Yang, Xiaodong
[J]. JOURNAL OF OPTICS, 2018, 20 (12)
[13] Optical trapping performance of circular Pearcey beams on Mie particles
Lu, Xiaofang
Tan, Liu
Liu, Nana
Chen, Chuanwen
Chen, Kaijian
Wu, Haixia
Xia, Xiaoshuang
Zhang, Peiyu
Hong, Peilong
Zou, Bingsuo
Liang, Yi
[J]. PHYSICAL REVIEW A, 2023, 108 (06)
[14] Propagation Characteristics of Circular Airy Vortex Beams in a Uniaxial Crystal along the Optical Axis
Zheng, Guoliang
Wu, Qingyang
He, Tiefeng
Zhang, Xuhui
[J]. MICROMACHINES, 2022, 13 (07)
[15] Optical Trapping of Low Refractive Index Particles by Dual Vortex Beams
Nakaya, Sho
Kozawa, Yuichi
Uesugi, Yuuki
Sato, Shunichi
[J]. 2021 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO), 2021,
[16] Optical vortex trapping of particles
Worcester Polytechnic Inst, Worcester, United States
[J]. Conf Proc Laser Electr Optic Soc Annu Meet, (155-156):
[17] Optical vortex trapping of particles
Gahagan, KT
Swartzlander, GA
[J]. OPTICS LETTERS, 1996, 21 (11) : 827 - 829
[18] Analysis of optical trapping and propulsion of Rayleigh particles using Airy beam
Cheng, Hua
Zang, Weiping
Zhou, Wenyuan
Tian, Jianguo
[J]. OPTICS EXPRESS, 2010, 18 (19): : 20384 - 20394
[19] High-order vortex harmonic generation with circular Airy vortex beams
Shen, Fengbei
Pang, Zeyue
Wang, Chunya
Hong, Weiyi
[J]. JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 2023, 40 (02) : 398 - 405
[20] Measurement of optical trapping force and stiffness of micro-particles with the drag-force method
Peng, Fei
Yao, Bao-Li
Lei, Ming
Yan, Shao-Hui
[J]. Guangdianzi Jiguang/Journal of Optoelectronics Laser, 2010, 21 (01): : 78 - 82

← 1 2 3 4 5 →