Effect of electron cyclotron beam width to neoclassical tearing mode stabilization by minimum seeking control in ITER

Minho Park, Yong Su Na, Jaemin Seo, M. Kim, Kyungjin Kim

Research output: Contribution to journalArticlepeer-review

6 Scopus citations

Abstract

We report the effect of the electron cyclotron (EC) beam width on the full suppression time of neoclassical tearing mode (NTM) using the finite difference method (FDM) based minimum seeking controller in ITER. An integrated numerical system is setup for time-dependent simulations of the NTM evolution in ITER by solving the modified Rutherford equation together with the plasma equilibrium, transport, and EC heating and current drive. The calculated magnetic island width and growth rate is converted to the Mirnov diagnostic signal as an input to the controller to mimic the real experiment. In addition, 10% of the noise is enforced to this diagnostic signal to evaluate the robustness of the controller. To test the dependency of the NTM stabilization time on the EC beam width, the EC beam width scan is performed for a perfectly aligned case first, then for cases with the feedback control using the minimum seeking controller. When the EC beam is perfectly aligned, the narrower the EC beam width, the smaller the NTM stabilization time is observed. As the beam width increases, the required EC power increases exponentially. On the other hand, when the minimum seeking controller is applied, NTM stabilization sometimes fails as the EC beam width decreases. This is consistently observed in the simulation with various representations of the noise as well as without the noise in the Mirnov signal. The higher relative misalignment, misalignment divided by the beam width, is found to be the reason for the failure with the narrower beam widths. The EC stabilization effect can be lower for the narrower beam widths than the broader ones even at the same misalignment due to the smaller ECCD at the island O-point. On the other hand, if the EC beam is too wide, the NTM stabilization time takes too long. Accordingly, the optimal EC beam width range is revealed to exist in the feedback stabilization of NTM.

Original languageEnglish
Article number016042
JournalNuclear Fusion
Volume58
Issue number1
DOIs
StatePublished - Jan 2018

Funding

This work was supported by the Ministry of Science, ICT and Future Planning of the Republic of Korea under the ITER technology R&D programme. The authors are thankful to Dr Jeongwon Lee at National Fusion Research Institute, Korea for fruitful discussions and The Research Institute of Energy and Resources, Seoul National University.

Keywords

  • ITER hybrid scenario
  • electron cyclotron beam width
  • integrated modeling
  • minimum seeking controller
  • neoclassical tearing mode

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