4.6 Article

Shaping autofocusing Airy beams through the modification of Fourier spectrum

Journal

OPTICS EXPRESS
Volume 30, Issue 1, Pages 232-242

Publisher

OPTICAL SOC AMER
DOI: 10.1364/OE.444396

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Funding

  1. Program of Innovation and Entrepreneurship for Undergraduates
  2. Science and Technology Program of Guangzhou [2019050001]
  3. National Natural Science Foundation of China [11374108, 11775083, 12174122]

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In this paper, a new type of Airy beam resulting from the modification of Fourier spectrum is introduced numerically and experimentally. The autofocusing Airy beam (AAB) exhibits off-axis autofocusing and transverse self-accelerating properties, resulting in a needle-like focus in the longitudinal direction and a tiny focal spot at the focusing plane. The focusing properties of the AAB, such as focusing position, focal spot size, focusing intensity, and depth of focus, can be adjusted by modulating its parameters. Experimental demonstrations of particle trapping and manipulation using the AAB are also presented. The number of trapped particles can be controlled by changing the focal spot size at the autofocusing plane. Our results have practical applications in particle manipulation, fluorescent imaging technology, laser spectroscopy, and other fields.
A new type of Airy beam arisen from the modification of Fourier spectrum is introduced numerically and experimentally. The autofocusing Airy beam (AAB) exhibits the features of off-axis autofocusing and transverse self-accelerating, producing a needle-like focus in the longitudinal direction and a tiny focal spot at the focusing plane. Furthermore, the focusing properties such as focusing position, focal spot size, focusing intensity and depth of focus can be adjusted by modulating parameters of the AAB. Experimental demonstrations of particle trapping and manipulation with the AAB are also presented. The number of trapped particles can be controlled by changing the focal spot size at the autofocusing plane. Our results offer practical applications in particle manipulation, fluorescent imaging technology, laser spectroscopy and so on. (c) 2021 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement

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