Physical Review Research (Feb 2021)

Attosecond photoionization dynamics in the vicinity of the Cooper minima in argon

  • C. Alexandridi,
  • D. Platzer,
  • L. Barreau,
  • D. Busto,
  • S. Zhong,
  • M. Turconi,
  • L. Neoričić,
  • H. Laurell,
  • C. L. Arnold,
  • A. Borot,
  • J.-F. Hergott,
  • O. Tcherbakoff,
  • M. Lejman,
  • M. Gisselbrecht,
  • E. Lindroth,
  • A. L'Huillier,
  • J. M. Dahlström,
  • P. Salières

DOI
https://doi.org/10.1103/PhysRevResearch.3.L012012
Journal volume & issue
Vol. 3, no. 1
p. L012012

Abstract

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Using a spectrally resolved electron interferometry technique, we measure photoionization time delays between the 3s and 3p subshells of argon over a large 34-eV energy range covering the Cooper minima in both subshells. The observed strong variations of the 3s−3p delay difference, including a sign change, are well reproduced by theoretical calculations using the two-photon two-color random-phase approximation with exchange. Strong shake-up channels lead to photoelectrons spectrally overlapping with those emitted from the 3s subshell. These channels need to be included in our analysis to reproduce the experimental data. Our measurements provide a benchmark for multielectronic theoretical models aiming at an accurate description of interchannel correlation.