New Journal of Physics (Jan 2023)

Long-lasting XUV activation of helium nanodroplets for avalanche ionization

  • C Medina,
  • A Ø Lægdsmand,
  • L Ben Ltaief,
  • Z Hoque,
  • A H Roos,
  • L Jurkovičová,
  • O Hort,
  • O Finke,
  • M Albrecht,
  • J Nejdl,
  • F Stienkemeier,
  • J Andreasson,
  • E Klimešová,
  • M Krikunova,
  • A Heidenreich,
  • M Mudrich

DOI
https://doi.org/10.1088/1367-2630/acd5f6
Journal volume & issue
Vol. 25, no. 5
p. 053030

Abstract

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We study the dynamics of avalanche ionization of pure helium nanodroplets activated by a weak extreme-ultraviolet (XUV) pulse and driven by an intense near-infrared (NIR) pulse. In addition to a transient enhancement of ignition of a nanoplasma at short delay times ${\sim}200$ fs, long-term activation of the nanodroplets lasting up to a few nanoseconds is observed. Molecular dynamics simulations suggest that the short-term activation is caused by the injection of seed electrons into the droplets by XUV photoemission. Long-term activation appears due to electrons remaining loosely bound to photoions which form stable ‘snowball’ structures in the droplets. Thus, we show that XUV irradiation can induce long-lasting changes of the strong-field optical properties of nanoparticles, potentially opening new routes to controlling avalanche-ionization phenomena in nanostructures and condensed-phase systems.

Keywords