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(EXP5/09) Transport Mechanisms and Enhanced Confinement Studies in RFX

M. Valisa¹⁾, V. Antoni¹⁾, L. Apolloni¹⁾, M. Bagatin¹⁾, W. Baker¹⁾, O. Barana¹⁾, R. Bartiromo¹⁾, P. Bettini¹⁾, A. Boboc¹⁾, T. Bolzonella¹⁾, A. Buffa¹⁾, A. Canton¹⁾, S. Cappello¹⁾, L. Carraro¹⁾, R. Cavazzana¹⁾, G. Chitarin¹⁾, S. Costa¹⁾, F. D'Angelo¹⁾, S. Dal Bello¹⁾, A. De Lorenzi¹⁾, D. Desideri¹⁾, D. F. Escande²⁾, L. Fattorini¹⁾, P. Fiorentin¹⁾, P. Franz¹⁾, E. Gaio¹⁾, L. Garzotti¹⁾, L. Giudicotti¹⁾, F. Gnesotto¹⁾, L. Grando¹⁾, S. C. Guo¹⁾, P. Innocente¹⁾, A. Intravaia¹⁾, R. Lorenzini¹⁾, A. Luchetta¹⁾, G. Malesani¹⁾, G. Manduchi¹⁾, G. Marchiori¹⁾, L. Marrelli¹⁾, P. Martin¹⁾, E. Martines¹⁾, S. Martini¹⁾, A. Maschio¹⁾, A. Masiello¹⁾, F. Milani¹⁾, M. Moresco¹⁾, A. Murari¹⁾, P. Nielsen¹⁾, M. O'Gorman¹⁾, S. Ortolani¹⁾, R. Paccagnella¹⁾, R. Pasqualotto¹⁾, B. Pégurié¹⁾, S. Peruzzo¹⁾, R. Piovan¹⁾, N. Pomaro¹⁾, A. Ponno¹⁾, G. Preti¹⁾, M. E. Puiatti¹⁾, G. Rostagni¹⁾, F. Sattin¹⁾, P. Scarin¹⁾, G. Serianni¹⁾, P. Sonato¹⁾, E. Spada¹⁾, G. Spizzo¹⁾, M. Spolaore¹⁾, C. Taliercio¹⁾, G. Telesca¹⁾, D. Terranova¹⁾, V. Toigo¹⁾, L. Tramontin¹⁾, N. Vianello¹⁾, M. Viterbo¹⁾, L. Zabeo¹⁾, P. Zaccaria¹⁾, P. Zanca¹⁾, B. Zaniol¹⁾, L. Zanotto¹⁾, E. Zilli¹⁾, G. Zollino¹⁾

¹⁾ Consorzio RFX, Associazione Euratom - ENEA sulla Fusione, Corso Stati Uniti 4, 35127 Padova, Italy
²⁾ UMR 6633 CNRS-Université de Provence, Avenue Normandie-Niemen, 13397 Marseille Cedex 20, France

Abstract. The results of an extensive study on transport mechanisms and on improved confinement scenarios in RFX are reported. The scaling of the thermal conductivity in the core with the Lundquist number indicates that the magnetic field in this region is not fully stochastic, as proved by the existence of thermal barriers observed in Single Helicity configurations. The electrostatic transport at the edge has been proved to depend on the highly sheared ExB flow which has been interpreted by fluid and Monte Carlo models. Regimes of improved confinement have been obtained in the core by Poloidal Current Drive techniques and the electrostatic transport has been reduced at the edge by biasing experiments. A radiation mantle by impurity seeding has been found to successfully reduce the local plasma wall interaction without significantly deteriorating the plasma performance.

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IAEA 2001