The radial electric field (Er) is a crucial parameter to control transport both in tokamaks and in stellarators. Its local value is result of the interplay between neoclassical (NC) and turbulent mechanisms. In stellarators, the edge radial electric field changes its sign in a continuous manner during the electron (Er > 0) to the ion root (Er < 0) transition [2]. Therefore, stellarators are unique laboratories to investigate the connection between radial electric fields and edge-SOL (Scrape-Off Layer) coupling. It has been shown recently that turbulence is not only locally suppressed by sheared flows, but also affected by radial transport or spreading of turbulence [2]. The propagation of turbulence from the edge to the SOL was shown to decrease when the E × B shearing rate exceeded a threshold, reducing turbulence penetration into the SOL and thus affecting its profile. To further explore the impact of the radial electric field (or its gradient) on turbulence and the edge-SOL coupling, the Er profile was modified slowly during the electron-ion root transition in the TJ-II stellarator. This was done by increasing the line average density in a continuous manner in ECRH heated plasma. This allows us to study, with unprecedented detail, the impact of Er on edge-SOL turbulence propagation and its effect on local plasma parameters. This work highlights the role of the radial electric field on regulating turbulence and the level of edge-SOL coupling. As the turbulence spreading is an important factor in setting the SOL width, results reported here provides a route to better understanding and controlling power exhaust in reactor-relevant scenarios.
The influence of edge sheared radial electric fields on edge-SOL coupling in the TJ-II stellarator
Grenfell G.; van Milligen B.Ph.; Losada U.; Cappa A.; Estrada T.; Spolaore M.; Hidalgo C.; TJ-II Team
Conference:
46th European Physical Society Conference on Plasma Physics (EPS 2019),
pp. 1 - 4 , Milan, Italy , 8-12 July 2019
Year:
2019
ISTP Authors: Monica Spolaore
Keywords: edge sheared radial electric fields, edge-SOL coupling, TJ-II stellarator
Research Activitie: CONFERENCE PROCEEDINGS
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