ASDEX Upgrade contribution to disruption studies for ITER
Abstract
Plasma disruptions represent a hazard for the structural integrity of ITER. The contribution of the existing tokamaks to this project consists in refining the characterization of the disruption loads and their extrapolation, on the basis of physical models, and in learning to predict and mitigate disruptions. The ASDEX Upgrade research program covers these specific topics and this contribution reports on significant progress made in these areas. (I) The formation and evolution of the halo region is analyzed with MHD-transport codes and extrapolation to ITER is discussed. (II) Discriminant analysis is applied to each disruption group in order to determine the most significant plasma variables, which allow for classification, and is being used to discern between stable and pre-disruptive plasma states. (III) Progress has been made with MGI in attaining an effective electron density equivalent to 24 % of the critical one (necessary for the collisional suppression of runaway electrons) and in studying the redistribution of the injected gas in the plasma.
- Publication:
-
APS Division of Plasma Physics Meeting Abstracts
- Pub Date:
- November 2010
- Bibcode:
- 2010APS..DPPUO4002P