TY - JOUR
T1 - Generation and control of multiple optical bottles from chirped Airy–Gaussian vortex beams
T2 - theory and experiment
AU - He, Shangling
AU - Zhang, Yong
AU - Malomed, Boris A.
AU - Mihalache, Dumitru
AU - Zhang, Liping
AU - Zhang, Sijing
AU - Huang, Qiaobin
AU - Qiu, Huixin
AU - Zhao, Jiajia
AU - Peng, Xi
AU - He, Y. ingji
AU - Deng, Dongmei
N1 - Publisher Copyright:
© 2022 Informa UK Limited, trading as Taylor & Francis Group.
PY - 2022
Y1 - 2022
N2 - New structures in the form of multiple optical bottles (OBs), produced by the chirped Airy–Gaussian vortex beams (CAGVBs) in free space, are derived numerically and experimentally. By selecting appropriate parameters, multiple OB structures with different sizes, different locations, and amounts of individual ‘bottles’ in them are produced. These characteristics of the output can be adjusted by selecting the chirp factor, width, and topological charge of the input beams, as well as by offset of the embedded vortices from the central position. In this work, we address the structured built of one, two, three and four OBs. The produced beams demonstrate the self-healing effect, restoring their complex shape after hitting an obstacle. Experimental results are consistent with the numerical ones, directly demonstrating the creation of OBs and their ability to trap and keep microparticles, offering the potential for the use in optical tweezers.
AB - New structures in the form of multiple optical bottles (OBs), produced by the chirped Airy–Gaussian vortex beams (CAGVBs) in free space, are derived numerically and experimentally. By selecting appropriate parameters, multiple OB structures with different sizes, different locations, and amounts of individual ‘bottles’ in them are produced. These characteristics of the output can be adjusted by selecting the chirp factor, width, and topological charge of the input beams, as well as by offset of the embedded vortices from the central position. In this work, we address the structured built of one, two, three and four OBs. The produced beams demonstrate the self-healing effect, restoring their complex shape after hitting an obstacle. Experimental results are consistent with the numerical ones, directly demonstrating the creation of OBs and their ability to trap and keep microparticles, offering the potential for the use in optical tweezers.
KW - Auto-focusing beams
KW - autofocusing effect
KW - optical bottles
KW - optical tweezers
KW - self-healing effect
UR - http://www.scopus.com/inward/record.url?scp=85144170451&partnerID=8YFLogxK
U2 - 10.1080/17455030.2022.2153284
DO - 10.1080/17455030.2022.2153284
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AN - SCOPUS:85144170451
SN - 1745-5030
JO - Waves in Random and Complex Media
JF - Waves in Random and Complex Media
ER -