Quantum Beam Science (Oct 2022)

The ELIMAIA Laser–Plasma Ion Accelerator: Technological Commissioning and Perspectives

  • Francesco Schillaci,
  • Lorenzo Giuffrida,
  • Maksym Tryus,
  • Filip Grepl,
  • Stanislav Stancek,
  • Andriy Velyhan,
  • Valeriia Istokskaia,
  • Tadzio Levato,
  • Giada Petringa,
  • Giuseppe A. P. Cirrone,
  • Josef Cupal,
  • Lucia Koubiková,
  • Davorin Peceli,
  • Jeffrey Alan Jarboe,
  • Tarcio de Castro Silva,
  • Martin Cuhra,
  • Timofej Chagovets,
  • Vasiliki Kantarelou,
  • Marco Tosca,
  • Vahagn Ivanyan,
  • Martina Greplová Žáková,
  • Jan Psikal,
  • Roman Truneček,
  • Anna Cimmino,
  • Roberto Versaci,
  • Veronika Olšovlcová,
  • Daniel Kramer,
  • Pavel Bakule,
  • Jan Ridky,
  • Georg Korn,
  • Bedrich Rus,
  • Daniele Margarone

DOI
https://doi.org/10.3390/qubs6040030
Journal volume & issue
Vol. 6, no. 4
p. 30

Abstract

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We report on the technological commissioning of the Laser–Plasma Ion Accelerator section of the ELIMAIA user beamline at the ELI Beamlines facility in the Czech Republic. The high-peak, high-average power L3-HAPLS laser system was used with an energy of ~10 J and pulse duration of ~30 fs on target, both in single-pulse and high repetition-rate (~0.5 Hz) mode. The laser pulse was tightly focused to reach ultrahigh intensity on target (~1021 W/cm2) and sustain such laser–plasma interaction regime during high repetition-rate operations. The laser beam, ion beam, and laser–plasma emission were monitored on a shot-to-shot basis, and online data analysis at 0.5 Hz was demonstrated through the full set of used diagnostics (e.g., far and near field, laser temporal diagnostics, X- and gamma-ray detectors, Thomson Parabola ion spectrometer, time-of-flight ion detectors, plasma imaging, etc.). The capability and reliability of the ELIMAIA Ion Accelerator was successfully demonstrated at a repetition rate of 0.5 Hz for several hundreds of consecutive laser shots.

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