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Journal article

A Key to Improved Ion Core Confinement in the JET Tokamak: Ion Stiffness Mitigation due to Combined Plasma Rotation and Low Magnetic Shear

By Mantica, P.; Challis, C.; Peeters, A.G.; Strintzi, D.; Tala, T.; Tsalas, M.; deVries, P.C.; Baiocchi, B.; Baruzzo, M.; Bizarro, J.; Buratti, P.; Citrin, J.; Colyer, G.; Crisanti, F.; Garbet, X.; Giroud, C.; Hawkes, N.; Hobirk, J.; Imbeaux, F.; Joffrin, E.; Johnson, T.; Lerche, E.; Mailloux, J.; Naulin, Volker1,2; Salmi, A.; Sozzi, C.; Staebler, G.; Van Eester, D.; Versloot, T.; Weiland, J. ...and 20 more

From

Plasma Physics and Technology Programme, Risø National Laboratory for Sustainable Energy, Technical University of Denmark1

Risø National Laboratory for Sustainable Energy, Technical University of Denmark2

New transport experiments on JET indicate that ion stiffness mitigation in the core of a rotating plasma, as described by Mantica et al. Phys. Rev. Lett. 102 175002 (2009)] results from the combined effect of high rotational shear and low magnetic shear. The observations have important implications for the understanding of improved ion core confinement in advanced tokamak scenarios.

Simulations using quasilinear fluid and gyrofluid models show features of stiffness mitigation, while nonlinear gyrokinetic simulations do not. The JET experiments indicate that advanced tokamak scenarios in future devices will require sufficient rotational shear and the capability of q profile manipulation. © 2011 American Physical Society

Language: English
Publisher: American Physical Society
Year: 2011
Pages: 135004
ISSN: 10797114 and 00319007
Types: Journal article
DOI: 10.1103/PhysRevLett.107.135004
ORCIDs: Naulin, Volker
Keywords

Fusion energy Fusionsenergi Fusionsenergiforskning

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