JPhys Photonics (Jan 2024)

Ultraviolet supercontinuum generation using a differentially-pumped integrated glass chip

  • Vincent Wanie,
  • Pasquale Barbato,
  • Josina Hahne,
  • Sergey Ryabchuk,
  • Ammar Bin Wahid,
  • David Amorim,
  • Erik P Månsson,
  • Andrea Trabattoni,
  • Roberto Osellame,
  • Rebeca Martínez Vázquez,
  • Francesca Calegari

DOI
https://doi.org/10.1088/2515-7647/ad2bd3
Journal volume & issue
Vol. 6, no. 2
p. 025005

Abstract

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We investigate the generation of ultrabroadband femtosecond ultraviolet (UV) radiation via third-order harmonic generation in highly confined gas media. A dual-stage differential-pumping scheme integrated into a glass microfluidic chip provides an exceptional gas confinement up to several bar and allows the apparatus to be operated under high-vacuum environment. UV pulses are generated both in argon and neon with up to ∼0.8 μ J energy and 0.2% conversion efficiency for spectra that cover the UVB and UVC regions between 200 and 325 nm. Numerical simulations based on the unidirectional pulse propagation equation reveal that ionization plays a critical role for extending the spectral bandwidth of the generated third-harmonic pulse beyond the tripled 800 nm driving laser pulse bandwidth. By delivering UV supercontinua supporting Fourier transform limits below 2 fs, as well as comparable pulse energies with respect to capillary-based techniques that typically provide high spectral tunability but produce narrower bandwidths, our compact device makes a step forward towards the production and application of sub-fs UV pulses for the investigation of electron dynamics in neutral molecules.

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