Enhanced energy confinement after series of pellets in Wendelstein 7-X

J. Baldzuhn, H. Damm, C. D. Beidler, K. Mccarthy, N. Panadero, C. Biedermann, S. A. Bozhenkov, A. Dinklage, K. J. Brunner, G. Fuchert, Y. Kazakov, M. Beurskens, M. Dibon, J. Geiger, O. Grulke, U. Höfel, T. Klinger, F. Köchl, J. Knauer, G. KocsisP. Kornejew, P. T. Lang, A. Langenberg, H. Laqua, N. A. Pablant, E. Pasch, T. S. Pedersen, B. Ploeckl, K. Rahbarnia, G. Schlisio, E. R. Scott, T. Stange, A. Von Stechow, T. Szepesi, Y. Turkin, F. Wagner, V. Winters, G. Wurden, D. Zhang

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Résumé

A series of ice pellets was injected into the advanced stellarator Wendelstein 7-X (W7-X). Although the pellets were small and slow, deep and efficient particle fueling could be observed experimentally. The most striking feature appearing after the injection of the pellets, however, was a transient increase in the energy confinement time. This transient phase resembled in several aspects modes of enhanced confinement after gas-puff or pellet injection, as observed in other fusion experiments. All experimental attempts, to prolong this phase, failed. In this paper, discharges are described that show the enhanced energy confinement, and some conditions are summarized which seem to be essential in order to generate it. The focus here is on deep particle fueling by pellets, and shaping of the density profiles during and after the series of pellets. During this time, neutral gas particle re-fueling at the plasma edge is reduced, while density profile peaking and low impurity radiation losses are present.

langue originaleAnglais
Numéro d'article055012
journalPlasma Physics and Controlled Fusion
Volume62
Numéro de publication5
Les DOIs
étatPublié - mai 2020

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