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(THP1/05) Dimensionless Energy Confinement Scaling in W7-AS

R. Preuss and V. Dose

Max-Planck-Institut für Plasmaphysik, EURATOM Association, D-85740 Garching b. München, Germany

W. von der Linden
Institut für Theoretische Physik, Technische Universität Graz, A-8010 Graz, Austria

Abstract.  Energy confinement in W7-AS has been analyzed in terms of dimensionally exact form free functions employing Bayesian probability theory. The confinement function was set up as a linear combination of dimensionally exact power law terms as already proposed very early by Connor and Taylor. Generation of this expansion basis is dictated by the basic plasma model which one assumes. Based upon data accumulated in W7-AS, which contains the energy content for a wide variety of variable settings, predictions for single variable scans are made. The scaling functions for density and power scans, respectively, are in quantitative agreement with data collected in W7-AS. The result of a single variable scan is therefore already hidden in the data obtained for arbitrary variable choices and can be extracted from the latter by a proper data analysis. Furthermore, the optimal model for the description of the global transport in W7-AS is identified as the collisional low beta kinetic model.

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IAEA 2001