Drift kinetic response of ions to magnetic island perturbation and effects on NTM threshold

K. Imada, H. R. Wilson, J. W. Connor, A. V. Dudkovskaia, P. Hill

Research output: Contribution to journalConference articlepeer-review

2 Scopus citations

Abstract

Controlling neoclassical tearing modes (NTMs) is vital for future tokamaks, such as ITER. An NTM control system relies on the magnetic island threshold physics. In this paper, new results for the ion response to the island perturbation and its influence on the island evolution are presented. Considering a small island, w ≪ r, where r is the minor radius, but crucially retaining the ordering ρ bi ∼ w (relevant for threshold) to capture the finite orbit width effect, we determine the ion response using the drift kinetic equation. Momentum conservation and quasineutrality are taken into account, which are crucial for determining the current perturbations. The results show that the finite particle orbit effects are significant even for a moderately small ratio of ρ θ i /w (ρ θ i is the ion poloidal Larmor radius; ρ b i 1/2 ρ θ i ). When w ∼ ρ θ i , the flattening of the pressure gradient across the island is substantially restored, implying that the bootstrap current drive for the island growth is suppressed. Moreover, we find that for a sufficiently small island, w ≪ ρ θ i , the contribution can be negative, meaning that it can stabilize small seed islands, providing a threshold. This will have significant impact on our understanding of the NTM threshold physics.

Original languageEnglish
Article number012013
JournalJournal of Physics: Conference Series
Volume1125
Issue number1
DOIs
StatePublished - Nov 23 2018
Externally publishedYes
Event2018 Joint Varenna-Lausanne International Workshop on the Theory of Fusion Plasmas - Varenna, Italy
Duration: Aug 27 2018Aug 31 2018

Funding

This work was supported by the UK Engineering and Physical Sciences Research Council, grant number EP/N009363/1. Numerical calculations were performed using the ARCHER computing service through the Plasma HEC Consortium EPSRC Grant Number EP/L000237/1, as well as on EUROfusion High Performance Computer (Marconi-Fusion).

FundersFunder number
Horizon 2020 Framework Programme633053
Engineering and Physical Sciences Research CouncilEP/L000237/1, EP/N009363/1

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