Structural Dynamics (May 2020)

Imaging plasma formation in isolated nanoparticles with ultrafast resonant scattering

  • Daniela Rupp,
  • Leonie Flückiger,
  • Marcus Adolph,
  • Alessandro Colombo,
  • Tais Gorkhover,
  • Marion Harmand,
  • Maria Krikunova,
  • Jan Philippe Müller,
  • Tim Oelze,
  • Yevheniy Ovcharenko,
  • Maria Richter,
  • Mario Sauppe,
  • Sebastian Schorb,
  • Rolf Treusch,
  • David Wolter,
  • Christoph Bostedt,
  • Thomas Möller

DOI
https://doi.org/10.1063/4.0000006
Journal volume & issue
Vol. 7, no. 3
pp. 034303 – 034303-10

Abstract

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We have recorded the diffraction patterns from individual xenon clusters irradiated with intense extreme ultraviolet pulses to investigate the influence of light-induced electronic changes on the scattering response. The clusters were irradiated with short wavelength pulses in the wavelength regime of different 4d inner-shell resonances of neutral and ionic xenon, resulting in distinctly different optical properties from areas in the clusters with lower or higher charge states. The data show the emergence of a transient structure with a spatial extension of tens of nanometers within the otherwise homogeneous sample. Simulations indicate that ionization and nanoplasma formation result in a light-induced outer shell in the cluster with a strongly altered refractive index. The presented resonant scattering approach enables imaging of ultrafast electron dynamics on their natural timescale.