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Sawtooth stability in neutral beam heated plasmas in TEXTOR

Author
Abstract

The experimental sawtooth behaviour in neutral beam injection (NBI) heated plasmas in TEXTOR is described. It is found that the sawtooth period is minimized with a low NBI power oriented in the same direction as the plasma current. As the beam power is increased in the opposite direction to the plasma current, the sawtooth period increases to a maximum before it begins to shorten once more. Results from both magnetohydrodynamic stability modelling including toroidal flows and modelling of the kinetic effects of the fast ions resulting from NBI heating are also presented. This model combining the gyroscopic and kinetic effects upon the stability of the n = 1 internal kink mode-thought to be associated with sawtooth oscillations-qualitatively recovers the sawtooth behaviour exhibited in the experiment. It is proposed that the sawtooth period is minimized in the co-NBI direction at the point at which the stabilization of the kink mode due to rotation is weakest. This occurs when the plasma rotation induced by the NBI balances the intrinsic rotation of the plasma. The sawtooth behaviour in the counter-NBI regime is attributed to a subtle balance of the competing stabilization from the toroidal rotation and destabilization from the presence of energetic ions.

Year of Publication
2008
Journal
Nuclear Fusion
Volume
48
Number
3
Number of Pages
9
Date Published
Mar
Type of Article
Article
ISBN Number
0029-5515
Accession Number
ISI:000255111500007
URL
<Go to ISI>://000255111500007
PId
20adf137bfda929380908e46279581f7
Alternate Journal
Nucl. Fusion
Journal Article
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