Nuclear Fusion (Jan 2023)

Spontaneous formation of a transport barrier in helium plasma in a tokamak with circular configuration

  • P. Macha,
  • J. Adamek,
  • J. Seidl,
  • J. Stockel,
  • V. Svoboda,
  • G. Van Oost,
  • L. Lobko,
  • J. Krbec

DOI
https://doi.org/10.1088/1741-4326/acf1af
Journal volume & issue
Vol. 63, no. 10
p. 104003

Abstract

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We report on the first experimental observation of a spontaneously formed transport barrier in the tokamak with a circular configuration in helium plasmas. There was no external polarization of the plasma by electric field or other technique to form the barrier as it is typically used in tokamaks with circular plasma. In general, the transport barriers play an important role in plasma confinement especially in tokamaks with divertor configuration. In our experiments, we clearly observe distinct characteristics of a transport barrier, including a steep gradient of the electron temperature and an enhanced radial electric field along with the change in the plasma potential, floating potential, and electron temperature fluctuation. The electron temperature and the plasma potential are obtained by a combination of the ball-pen and Langmuir probe measurements with high temporal resolution on a shot-to-shot basis. This first experimental observation of the spontaneously formed transport barrier might bring new possibilities to obtain a fusion-relevant study of the edge plasma parameters and transport in helium plasmas even on small tokamaks.

Keywords