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Predictive multi-channel flux-driven modelling to optimise ICRH tungsten control and fusion performance in JET

F. J. Casson, H. Patten, C. Bourdelle, S. Breton, J. Citrin, F. Koechl, M. Sertoli, C. Angioni, Y. Baranov, R. Bilato, E. A. Belli, C. Challis, G. Corrigan, A. Czarnecka, O. Ficker, L. Frassinetti, L. Garzotti, M. Goniche, J. P. Graves, T. Johnson, K. Kirov, P. Knight, E. Lerche, M. Mantsinen, J. Mylnar, M. Valisa, Contributors Jet

2020Nuclear Fusion71 citationsDOIOpen Access PDF

Abstract

Predictive multi-channel flux-driven modelling to optimise ICRH tungsten control and fusion performance in JET, Casson, F.J., Patten, H., Bourdelle, C., Breton, S., Citrin, J., Koechl, F., Sertoli, M., Angioni, C., Baranov, Y., Bilato, R., Belli, E.A., Challis, C.D., Corrigan, G., Czarnecka, A., Ficker, O., Frassinetti, L., Garzotti, L., Goniche, M., Graves, J.P., Johnson, T., Kirov, K., Knight, P., Lerche, E., Mantsinen, M., Mylnar, J., Valisa, M., and JET contributors

Topics & Concepts

Jet (fluid)Flux (metallurgy)FusionTungstenFusion powerMaterials scienceNuclear engineeringChannel (broadcasting)MechanicsPhysicsPlasmaComputer scienceNuclear physicsTelecommunicationsMetallurgyEngineeringLinguisticsPhilosophyMagnetic confinement fusion researchFusion materials and technologiesSuperconducting Materials and Applications
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