Scientific Reports (Aug 2022)

Three-dimensional dynamics of fluctuations appearing during pellet ablation process around a pellet in a fusion plasma experiment

  • S. Ohshima,
  • T. Suzuki,
  • R. Matoike,
  • G. Motojima,
  • S. Kado,
  • A. Mori,
  • A. Miyashita,
  • S. Kobayashi,
  • T. Minami,
  • A. Iwata,
  • D. Qiu,
  • C. Wang,
  • M. Luo,
  • P. Zhang,
  • Y. Kondo,
  • N. Nishino,
  • T. Mizuuchi,
  • H. Okada,
  • S. Konoshima,
  • S. Inagaki,
  • K. Nagasaki

DOI
https://doi.org/10.1038/s41598-022-18239-z
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 9

Abstract

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Abstract Understanding pellet ablation physics is crucial to realizing efficient fueling into a high temperature plasma for the steady state operation of ITER and future fusion reactors. Here we report the first observation of the formation of fluctuation structures in the pellet plasmoid during the pellet ablation process by a fast camera in a medium-sized fusion device, Heliotron J. The fluctuation has a normalized fluctuation level of ~ 15% and propagates around the moving pellet across the magnetic field. By comparing the fluctuation structures with the shape of magnetic field lines calculated with the field line tracing code, we successfully reconstruct the spatio-temporal structure of the fluctuations during the pellet ablation process. The fluctuations are located at the locations displaced toroidally from the pellet and propagate in the cross-field direction around the pellet axis along the field line, indicating a three-dimensional behavior and structure of fluctuations. The fluctuation would be driven by a strong inhomogeneity formed around the pellet and invoke the relaxation of the gradient through a cross-field transport induced by the fluctuations, which could affect the pellet ablation and pellet fueling processes. Such fluctuations can be ubiquitously present at the inhomogeneity formed around a pellet in the pellet ablation process in fusion devices.