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IAEA-CN77
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(EXP3/16(R)) Active Feedback Control of the Wall Stabilized External Kink Mode

G. A. Navratil1), J. Bialek1), A. H. Boozer1), C. Cates1), H. Dahi1), M. E. Mauel1), D. Maurer1), M. Shilov1)
 
1) Columbia University, New York, NY 10027, USA

Abstract.  Abstract. Active feedback control has been used in the HBT-EP tokamak to control the growth of the n=1 resistive wall mode. These experiments were carried out using a set of thin stainless-steel wall segments with magnetic diffusion time of $ \sim$0.4 ms positioned near the plasma boundary. In plasmas that would normally exhibit a strong ideal n = 1 external kink mode without a nearby conducting wall, the resistive wall slows the growth of the external kink to the $ \sim$1 ms time scale where it can be stabilized by active feedback control. The approach taken in these experiments is to use a network of active feedback coils mounted on the surface of the stainless-steel wall segments and driven by an active feedback control system that simulates the electrical response of a superconducting wall and minimizes the radial flux penetration of the perturbed mode field through the wall. This implementation of the so called `smart shell' in HBT-EP has 30 independent sensor/driver feedback loops.

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IAEA 2001