New Insights to the Sawtooth Oscillation (m/n=1/1 mode
) in Hot Plasmas based on High Resolution 2-D Images of Te Fluctuations
Authors: H.K. Park, N.C. Luhmann, Jr, A.J.H. Donné, C.W. Domier, T. Munsat, M.J. Van de Pol, and the TEXTOR Team
Abstract:
Two dimensional (2-D) images of electron temperature fluctuations with high temporal and spatial resolution have been employed to study the sawtooth oscillation (m/n=1/1 mode) in Toroidal EXperiment for Technology Oriented Research (TEXTOR) tokamak plasmas. 2-D imaging data revealed new physics which were not available in previous studies based on the 1-D electron temperature measurement and X-ray tomography. Review of the physics of the sawtooth oscillation is given by comparative studies with prominent theoretical models suggest that a new physics paradigm is needed to describe the reconnection physics of the sawtooth oscillation. The new insights are: A pressure driven instability (not a ballooning mode) leads to the X-point
reconnection process. The reconnection process is identified as a random 3-D local reconnection process with a helical structure. The reconnection time scale is similar for different types of sawtooth oscillation ("kink" and tearing
type) and is significantly faster than the resistive time scale. Heat flow from the core to the outside of the inversion radius during the reconnection process is highly collective rather than stochastic.
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Published in Journal of Plasma and Fusion Research, Volume 2 (2007);
Special Issue: Papers from the 16th International Toki Conference on Advanced Imaging and Plasma Diagnostics
Presented at: 16th International Toki Conference Advanced Imaging and Plasma Diagnostics, Ceratopia Toki, Gifu, JAPAN, December 5–8, 2006.
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