Light: Science & Applications (Feb 2021)

Bright, high-repetition-rate water window soft X-ray source enabled by nonlinear pulse self-compression in an antiresonant hollow-core fibre

  • M. Gebhardt,
  • T. Heuermann,
  • R. Klas,
  • C. Liu,
  • A. Kirsche,
  • M. Lenski,
  • Z. Wang,
  • C. Gaida,
  • J. E. Antonio-Lopez,
  • A. Schülzgen,
  • R. Amezcua-Correa,
  • J. Rothhardt,
  • J. Limpert

DOI
https://doi.org/10.1038/s41377-021-00477-x
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 7

Abstract

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Abstract Bright, coherent soft X-ray radiation is essential to a variety of applications in fundamental research and life sciences. To date, a high photon flux in this spectral region can only be delivered by synchrotrons, free-electron lasers or high-order harmonic generation sources, which are driven by kHz-class repetition rate lasers with very high peak powers. Here, we establish a novel route toward powerful and easy-to-use SXR sources by presenting a compact experiment in which nonlinear pulse self-compression to the few-cycle regime is combined with phase-matched high-order harmonic generation in a single, helium-filled antiresonant hollow-core fibre. This enables the first 100 kHz-class repetition rate, table-top soft X-ray source that delivers an application-relevant flux of 2.8 × 106 photon s−1 eV−1 around 300 eV. The fibre integration of temporal pulse self-compression (leading to the formation of the necessary strong-field waveforms) and pressure-controlled phase matching will allow compact, high-repetition-rate laser technology, including commercially available systems, to drive simple and cost-effective, coherent high-flux soft X-ray sources.