Matter and Radiation at Extremes (Mar 2020)

Ion acceleration and neutron production in hybrid gas-puff z-pinches on the GIT-12 and HAWK generators

  • D. Klir,
  • S. L. Jackson,
  • A. V. Shishlov,
  • V. A. Kokshenev,
  • K. Rezac,
  • A. R. Beresnyak,
  • R. K. Cherdizov,
  • J. Cikhardt,
  • B. Cikhardtova,
  • G. N. Dudkin,
  • J. T. Engelbrecht,
  • F. I. Fursov,
  • J. Krasa,
  • J. Kravarik,
  • P. Kubes,
  • N. E. Kurmaev,
  • V. Munzar,
  • N. A. Ratakhin,
  • K. Turek,
  • V. A. Varlachev

DOI
https://doi.org/10.1063/1.5132845
Journal volume & issue
Vol. 5, no. 2
pp. 026401 – 026401-10

Abstract

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Z-pinch experiments with a hybrid configuration of a deuterium gas puff have been carried out on the HAWK (NRL, Washington, DC) and GIT-12 (IHCE, Tomsk) pulsed power generators at 0.7 MA and 3 MA currents, respectively. On GIT-12, neutron yields reached an average value of 2 × 1012 neutrons, and deuterons were accelerated up to an energy of 30 MeV. This was 50 times the ion energy provided by the generator driving voltage of 0.6 MV and the highest energy observed in z-pinches and dense plasma foci. To confirm these unique results independently on another device, we performed several experimental campaigns on the HAWK generator. Comparison of the experiments on GIT-12 and HAWK helped us to understand which parameters are essential for optimized neutron production. Since the HAWK generator is of a similar pulsed power architecture as GIT-12, the experiments on GIT-12 and HAWK are important for the study of how charged-particle acceleration scales with the current.