Nuclear Fusion (Jan 2024)

Characteristics of disruptions observed in the initial operation phase of JT-60SA

  • T. Yokoyama,
  • S. Inoue,
  • S. Kojima,
  • T. Wakatsuki,
  • H. Urano,
  • R. Sano,
  • Y. Ohtani,
  • S. Sumida,
  • T. Nakano,
  • M. Takechi,
  • T. Szepesi,
  • M. Yoshida,
  • the JT-60SA Integrated Project Team

DOI
https://doi.org/10.1088/1741-4326/ad7bc9
Journal volume & issue
Vol. 64, no. 12
p. 126031

Abstract

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Disruption database in the JT-60SA first plasma operation period has been constructed. The disruptions have been divided into three categories based on their characteristics, and the characteristics of each category have been discussed. The most commonly observed disruptions were vertical displacement events (VDEs). As expected by simulations using the MHD equilibrium control simulator (MECS), a highly elongated plasma was likely to disrupt by VDE when the gap between the plasma surface and the wall is large. Despite the quite high edge safety factor $q_\mathrm{95}$ of above 10 in the initial operation, some discharge disrupted because of control failure caused by the n = 1 tearing mode. One possible cause of the n = 1 tearing mode is the edge cooling in high density. The last category is the radiative disruptions, which is characterized by slow current decay with multiple spikes in soft x-ray signals. These spikes are thought to be related to the MHD activity that occurred when the cooling front crossed the rational surface. The radiative disruptions are attributed to a sudden change in edge power balance.

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