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New method to analyze internal disruptions with tomographic reconstructions

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Abstract

Sawtooth crashes have been investigated on the Rijnhuizen Tokamak Project (RTP) [N. J. Lopes Cardozo ed al., Proceedings of the 14th international Conference on Plasma Physics and Controlled Nuclear Fusion Research, Wurzburg, 1992 (International Atomic Energy Agency, Vienna, 1993), Vol. 1, p. 271]. Internal disruptions in tokamak plasmas often exhibit an m = 1 poloidal mode structure prior to the collapse which can be clearly identified by means of multicamera soft x-ray diagnostics. In this paper tomographic reconstructions of such m = 1 modes are analyzed with a new method, based on magnetohydrodynamic (MHD) invariants computed from the two-dimensional emissivity profiles, which quantifies the amount of profile flattening not only after the crash but also during the precursor oscillations. The results are interpreted by comparing them with two models which simulate the measurements of the m = 1 redistribution of soft x-ray emissivity prior to the sawtooth crash. One model is based on the magnetic reconnection model of Kadomtsev. The other involves ideal MHD motion only. La cases where differences in magnetic topology between the two models cannot be seen in the tomograms, the analysis of profile flattening has an advantage. The analysis shows that in RTP the clearly observed m = 1 displacement of some sawteeth requires the presence of convective ideal MHD motion, whereas other precursors are: consistent with magnetic reconnection of up to 75% of the magnetic flux within the q = 1 surface. The possibility of ideal interchange combined with enhanced cross-field transport is not excluded. (C) 1997 American Institute of Physics.

Year of Publication
1997
Journal
Physics of Plasmas
Volume
4
Number
3
Number of Pages
696-708
Date Published
Mar
ISBN Number
1070-664X
DOI
PId
8c598a946af7a9203d71617013e22770
Journal Article
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