Experimental evidence for neoclassical ion transport effects in the H-transition of ASDEX

Authors :: Wagner, F.
Bartiromo, R.
Becker, G.
Bosch, H.S.
Eberhagen, A.
Fussmann, G.
Gehre, O.
Gernhardt, J.
Gierke, G.V.
Clock, E.
Gruber, O.
Haas, G.
Janeschitz, G.
Karger, F.
Keilhacker, M.
Kislyakov, A.
Klüber, O.
Kornherr, M.
Kotzé, P.B.
Lackner, K.
Lenoci, M.
Lisitano, G.
Mahdavi, A.
Mayer, H.-M.
McCormick, K.
Meisel, D.
Mertens, V.
Müller, E.R.
Murmann, H.
Niedermeyer, H.
Poschenrieder, W.
Rapp, H.
Ryter, F.
Roth, J.
Schneider, F.
Siller, G.
Smeulders, P.
Söldner, F.
Speth, E.
Steinmetz, K.
Steuer, K.-H.
Vollmer, O.
Source :: Nuclear Fusion; October 1985, Vol. 25 Issue: 10 p1490-1495, 6p
Publication Year :: 1985
Abstract: The H-mode develops in conditions of low and controlled recycling. The electron and ion collisionality parameters at the plasma periphery are close to, but above, one in the L-phase and drop below one in the H-phase. The realization of the H-phase is easier in the single-null than in the double-null configuration which has higher power and density thresholds. The increased H-mode accessibility of the single-null configuration requires the ion grad B-drift direction to be towards the stagnation point. The experimental observations are in agreement with a recent theory of the H-transition by Hinton.

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