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

Abstract

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 (Te) 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.