PhotoniX (Nov 2024)

Pulsed polarized vortex beam enabled by metafiber lasers

  • Chenxi Zhang,
  • Lei Zhang,
  • He Zhang,
  • Bo Fu,
  • Jiyong Wang,
  • Min Qiu

DOI
https://doi.org/10.1186/s43074-024-00151-6
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 11

Abstract

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Abstract Pulsed polarized vortex beams, a special form of structured light, are generated by tailoring the light beam spatiotemporally and witness the growing application demands in nonlinear optics such as ultrafast laser processing and surface plasma excitation. However, existing techniques for generating polarized vortex beams suffer from either low compactness due to the use of bulky components or limited controlment of pulse performance. Here, an all-fiber technique combining plasmonic metafibers with mode conversion method is harnessed to generate high-performance pulsed polarized vortex beams. Plasmonic metafibers are utilized as saturable absorbers to produce Q-switched pulses with micro-second duration, while the offset splicing method is employed to partially convert the fundamental transverse mode (LP $$_{01}$$ 01 ) to higher-order mode (LP $$_{11}$$ 11 ). Eventually, a polarized vortex beams laser is achieved at the telecom band with a repetition frequency of 116.0 kHz. The impact of geometrical parameters including period of metafibers and offset of splicing on the spatiotemporal properties of pulsed polarized vortex beams is systematically investigated. Our findings could pave the way for design, control and generation of all-fiber pulsed polarized vortex beams, and also offer insights into the development of other types of structured laser sources.

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