Micromachines (Feb 2021)

Numerical and Experimental Investigation on the Optical Manipulation from an Axicon Lensed Fiber

  • Wu Zhang,
  • Yanxiao Lin,
  • Yusong Gao,
  • Zekai Guo,
  • Xiangling Li,
  • Yuhong Hu,
  • Pengcai Dong,
  • Qifan Zhang,
  • Xiaohui Fang,
  • Meng Zhang

DOI
https://doi.org/10.3390/mi12020187
Journal volume & issue
Vol. 12, no. 2
p. 187

Abstract

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Here we numerically and experimentally studied the optical trapping on a microsphere from an axicon lensed fiber (ALF). The optical force from the fiber with different tapered lengths and by incident light at different wavelengths is calculated. Numerically, the microsphere can be trapped by the fiber with tapered outline y=±x/0.5 and y=±x at a short incident wavelength of 900 nm. While for the fiber with tapered outline y=±x/2, the microsphere can be trapped by the light with longer wavelength of 1100 nm, 1300 nm, or 1500 nm. The optical trapping to a polystyrene microsphere is experimentally demonstrated in a microfluidic channel and the corresponding optical force is derived according to the fluid flow speed. This study can provide a guidance for future tapered fibre design for optical trapping to microspheres.

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