Feedback and rotational stabilization of resistive wall modes in ITER
Other conference contribution, 2004
Different models have been introduced in the stability code MARS-F in order to
study the
damping effect of resistive wall modes (RWM) in rotating plasmas. Benchmark
of MARS-F calculations with RWM experiments on JET and D3D indicates that
the semi-kinetic damping model is a good candidate for explaining the damping
mechanisms. Based on these results, the critical rotation speeds required for
RWM stabilization in an advanced ITER scenario are predicted. Active feedback
control of the $n=1$ RWM in ITER is also studied using the MARS-F code.
Rotation
Feedback
ITER
Resistive Wall Mode
Author
Yueqiang Liu
Chalmers, Department of Electromagnetics, Computational Electromagnetics
Anders Bondeson
Chalmers, Department of Electromagnetics, Computational Electromagnetics
M.S. Chu
J-Y. Favez
Y. Gribov
M. Gryaznevich
T.C. Hender
D.F. Howell
R.J. La Haye
J.B. Lister
20th IAEA Fusion Energy Conference,Vilamoura, Portugal, 1-6 November 2004
Vol. TH 2-1
Subject Categories
Physical Sciences