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The impact of heating power on radial heat transport in W7-X

The understanding of the outward radial transport of heat in magnetic confinement fusion devices is a priority for the development of economically viable fusion reactors. Here, we analyze the radial propagation of spontaneously generated electron temperature (T_e) fluctuations measured using the Electron Cyclotron Emission (ECE) diagnostic in Wendelstein 7-X, which disposes of 32 channels, covering a large part of the plasma minor radius. By applying a relatively new statistical analysis technique (the Transfer Entropy), the present work provides, for the first time, a view of the detailed mechanism of electron heat transport in fusion plasmas. It is shown that rational surfaces have a significant impact on radial heat transport and may in fact be essential in setting the global energy confinement. The reported observations provide support for various explanatory concepts suggested in literature: namely, critical gradients, non-locality, and self-organization.

preprint2017arXivOpen access
B. Ph. van MilligenU. HoefelM. HirschB. A. CarrerasC. Hidalgothe W7-X team
physics.plasm-ph
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B. Ph. van MilligenU. HoefelM. HirschB. A. CarrerasC. Hidalgothe W7-X team

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