Nuclear Fusion (Jan 2023)

Impact of interaction between RF waves and fast NBI ions on the fusion performance in JET DTE2 campaign

  • K.K. Kirov,
  • C.D. Challis,
  • E. De la Luna,
  • J. Eriksson,
  • D. Gallart,
  • J. Garcia,
  • M. Gorelenkova,
  • J. Hobirk,
  • P. Jacquet,
  • A. Kappatou,
  • Y.O. Kazakov,
  • D. Keeling,
  • D. King,
  • E. Lerche,
  • C. Maggi,
  • J. Mailloux,
  • P. Mantica,
  • M. Mantsinen,
  • M. Maslov,
  • S. Menmuir,
  • P. Siren,
  • Z. Stancar,
  • D. Van Eester,
  • JET Contributors

DOI
https://doi.org/10.1088/1741-4326/ad0dd5
Journal volume & issue
Vol. 64, no. 1
p. 016026

Abstract

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This work presents a study of the interaction between radio frequency (RF) waves used for ion cyclotron resonance heating and the fast deuterium (D) and tritium (T) neutral Beam injected (NBI) ions in DT plasma. The focus is on the effects of this interaction, also referred to as synergistic effects, on the fusion performance in the recent JET DTE2 campaign. Experimental data from dedicated pulses at 3.43 T/2.3 MA heated at (i) 51.4 MHz, giving the central minority H and n = 2 D, and at (ii) 32.2 MHz for the central minority ^3 He and n = 2 T. Resonances are analysed and conclusions are drawn and supported by modelling of the synergistic effects. Modelling with transport code TRANSP runs with and without the RF kick operator predict a moderate increase, of about 10%, in DT rates for the case of the RF wave—fast D NBI ion interactions at the n = 2 harmonic of ion cyclotron resonance, and a negligible impact due to synergistic interaction between fast T NBI ions and RF waves. JETTO modelling gives a 29% enhancement in fusion rates due to the interction between RF waves and fast D NBI ions, and an 18% enhancement in fast T NBI ions. Analysis of experimental neutron rates compared to TRANSP predictions without synergistic effects and magnetic proton recoil neutron spectrometer indicate an enhancement of approximately 25%–28% in fusion rates due to RF interaction with fast D ions, and an enhancement of approximately 5%–8% when RF waves and fast T NBI ions are interacting. The contributions of various heating and fast ion sources are assessed and discussed.

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