Scientific Reports (Sep 2021)

Spatiotemporal beam self-cleaning for high-resolution nonlinear fluorescence imaging with multimode fiber

  • Nawell Ould Moussa,
  • Tigran Mansuryan,
  • Charles-Henri Hage,
  • Marc Fabert,
  • Katarzyna Krupa,
  • Alessandro Tonello,
  • Mario Ferraro,
  • Luca Leggio,
  • Mario Zitelli,
  • Fabio Mangini,
  • Alioune Niang,
  • Guy Millot,
  • Massimiliano Papi,
  • Stefan Wabnitz,
  • Vincent Couderc

DOI
https://doi.org/10.1038/s41598-021-96753-2
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 8

Abstract

Read online

Abstract Beam self-cleaning (BSC) in graded-index (GRIN) multimode fibers (MMFs) has been recently reported by different research groups. Driven by the interplay between Kerr effect and beam self-imaging, BSC counteracts random mode coupling, and forces laser beams to recover a quasi-single mode profile at the output of GRIN fibers. Here we show that the associated self-induced spatiotemporal reshaping allows for improving the performances of nonlinear fluorescence (NF) microscopy and endoscopy using multimode optical fibers. We experimentally demonstrate that the beam brightness increase, induced by self-cleaning, enables two and three-photon imaging of biological samples with high spatial resolution. Temporal pulse shortening accompanying spatial beam clean-up enhances the output peak power, hence the efficiency of nonlinear imaging. We also show that spatiotemporal supercontinuum (SC) generation is well-suited for large-band NF imaging in visible and infrared domains. We substantiated our findings by multiphoton fluorescence imaging in both microscopy and endoscopy configurations.