Impact of the temperature ratio on turbulent impurity transport in Wendelstein 7-X.

Authors :: Wegner, Th.
Alcusón, J.A.
Geiger, B.
Stechow, A. v.
Xanthopoulos, P.
Angioni, C.
Beurskens, M.N.A.
Böttger, L.-G.
Bozhenkov, S.A.
Brunner, K.J.
Burhenn, R.
Buttenschön, B.
Damm, H.
Edlund, E.
Ford, O.P.
Fuchert, G.
Grulke, O.
Huang, Z.
Knauer, J.
Kunkel, F.
Source :: Nuclear Fusion; Dec2020, Vol. 60 Issue 12, p1-5, 5p
Publication Year :: 2020
Abstract: First experimental observations in the Wendelstein 7-X stellarator indicate that the impurity confinement can be explained by turbulent processes. In particular, plasma discharges with increased ion to electron temperature ratio are accompanied by reduced electron density fluctuation amplitudes and anomalous impurity diffusion, suggesting a lower turbulent transport. Employing gyro-kinetic numerical simulations, we argue that the temperature ratio plays a key role for reducing the ion temperature gradient instability in Wendelstein 7-X, leading to an enhanced impurity confinement. [ABSTRACT FROM AUTHOR]

Subjects :: ELECTRON temperature
ION temperature
PLASMA flow
ELECTRON density
TEMPERATURE
DIFFUSION

Full Text Access

Tools