Poloidal rotation dynamics, radial electric field, and neoclassical theory in the jet internal-transport-barrier region

K. Crombé, Y. Andrew, M. Brix, C. Giroud, S. Hacquin, N. C. Hawkes, A. Murari, M. F.F. Nave, J. Ongena, V. Parail, G. Van Oost, I. Voitsekhovitch, K. D. Zastrow

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Résumé

Results from the first measurements of a core plasma poloidal rotation velocity (vÎ) across internal transport barriers (ITB) on JET are presented. The spatial and temporal evolution of the ITB can be followed along with the vÎ radial profiles, providing a very clear link between the location of the steepest region of the ion temperature gradient and localized spin-up of vÎ. The vÎmeasurements are an order of magnitude higher than the neoclassical predictions for thermal particles in the ITB region, contrary to the close agreement found between the determined and predicted particle and heat transport coefficients [K.-D. Zastrow, Plasma Phys. Controlled FusionPPCFET0741-3335 46, B255 (2004)10.1088/0741-3335/46/12B/022]. These results have significant implications for the understanding of transport barrier dynamics due to their large impact on the measured radial electric field profile.

langue originaleAnglais
Numéro d'article155003
journalPhysical Review Letters
Volume95
Numéro de publication15
Les DOIs
étatPublié - 7 oct. 2005

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