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Energy-selective confinement of fusion-born alpha particles during internal relaxations in a tokamak plasma

Author

Listed:
  • A. Bierwage

    (Rokkasho Fusion Institute, Rokkasho
    Naka Fusion Institute)

  • K. Shinohara

    (Naka Fusion Institute
    The University of Tokyo)

  • Ye.O. Kazakov

    (Partner in the Trilateral Euregio Cluster (TEC))

  • V. G. Kiptily

    (Culham Science Centre)

  • Ph. Lauber

    (Max-Planck-Institut für Plasmaphysik)

  • M. Nocente

    (Università di Milano-Bicocca
    National Research Council)

  • Ž. Štancar

    (Culham Science Centre
    Jožef Stefan Institute)

  • S. Sumida

    (Naka Fusion Institute)

  • M. Yagi

    (Rokkasho Fusion Institute, Rokkasho)

  • J. Garcia

    (CEA, IRFM)

  • S. Ide

    (Naka Fusion Institute)

Abstract

Long-pulse operation of a self-sustained fusion reactor using toroidal magnetic containment requires control over the content of alpha particles produced by D-T fusion reactions. On the one hand, MeV-class alpha particles must stay confined to heat the plasma. On the other hand, decelerated helium ash must be expelled before diluting the fusion fuel. Here, we report results of kinetic-magnetohydrodynamic hybrid simulations of a large tokamak plasma that confirm the existence of a parameter window where such energy-selective confinement can be accomplished by exploiting internal relaxation events known as sawtooth crashes. The physical picture — a synergy between magnetic geometry, optimal crash duration and rapid particle motion — is completed by clarifying the role of magnetic drifts. Besides causing asymmetry between co- and counter-going particle populations, magnetic drifts determine the size of the confinement window by dictating where and how much reconnection occurs in particle orbit topology.

Suggested Citation

  • A. Bierwage & K. Shinohara & Ye.O. Kazakov & V. G. Kiptily & Ph. Lauber & M. Nocente & Ž. Štancar & S. Sumida & M. Yagi & J. Garcia & S. Ide, 2022. "Energy-selective confinement of fusion-born alpha particles during internal relaxations in a tokamak plasma," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-31589-6
    DOI: 10.1038/s41467-022-31589-6
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