Light: Advanced Manufacturing (Jul 2022)

‘Plug-and-play’ plasmonic metafibers for ultrafast fibre lasers

  • Lei Zhang,
  • Huiru Zhang,
  • Ni Tang,
  • Xiren Chen,
  • Fengjiang Liu,
  • Xiaoyu Sun,
  • Hongyan Yu,
  • Xinyu Sun,
  • Qiannan Jia,
  • Boqu Chen,
  • Benoit Cluzel,
  • Philippe Grelu,
  • Aurelien Coillet,
  • Feng Qiu,
  • Lei Ying,
  • Wei E. I. Sha,
  • Xiaofeng Liu,
  • Jianrong Qiu,
  • Ding Zhao,
  • Wei Yan,
  • Duanduan Wu,
  • Xiang Shen,
  • Jiyong Wang,
  • Min Qiu

DOI
https://doi.org/10.37188/lam.2022.045
Journal volume & issue
Vol. 3
pp. 1 – 12

Abstract

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Metafibers expand the functionalities of conventional optical fibres to unprecedented nanoscale light manipulations by integrating metasurfaces on the fibre tips, becoming an emerging light-coupling platform for both the nanoscience and fibre optics communities. Current metafibers remain proof-of-concept demonstrations that mostly explore isolated bare fibres owing to the lack of standard interfaces with universal fibre networks. Here, we develop methodologies for fabricating well-defined plasmonic metasurfaces directly on the end facets of commercial single -mode fibre jumpers using standard planar technologies and provide the first demonstration of their practical applications in the nonlinear plasmonic regime. Featuring plug-and-play connections with fibre circuitry and arbitrary metasurface landscapes, the metafibers with tunable plasmonic resonances are implemented into fibre laser cavities, yielding all-fibre sub-picosecond (minimum 513 fs) soliton mode locked lasers at optical wavelengths of 1.5 μm and 2 μm, demonstrating their unusual polarimetric nonlinear transfer functions and superior saturation absorption responses. The nanofabrication process flow is compatible with existing cleanroom technologies, offering metafibers an avenue to become a regular member of functionalised fibre components. This work paves the way toward the next generation of ultrafast lasers, optical frequency combs, and ultracompact ‘all-in-fibre’ optical systems.

Keywords