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

Mantica, P.; Angioni, C.; Baiocchi, B.; Challis, C.; Citrin, J.; Colyer, G.; Figueiredo, A. C. A.; Frassinetti, L.; Joffrin, E.; Johnson, T.; Lerche, E.; Peeters, A. G.; Salmi, A.; Strintzi, D.; Tala, T.; Tsalas, M.; Van Eester, D.; de Vries, P. C.; Weiland, J.; Baruzzo, M.; Beurskens, M. N. A.; Bizarro, J. P. S.; Buratti, P.; Crisanti, F.; Garbet, X.; Giroud, C.; Hawkes, N.; Hobirk, J.; Imbeaux, F.; Mailloux, J.; Naulin, V.; Sozzi, C.; Staebler, G.; Versloot, T. W.; JET-EFDA Contributors

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

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Angioni, C.
Tokamak Theory (TOK), Max Planck Institute for Plasma Physics, Max Planck Society;

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Tsalas, M.
Plasma Edge and Wall (E2M), Max Planck Institute for Plasma Physics, Max Planck Society;

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Hobirk, J.
Tokamak Scenario Development (E1), Max Planck Institute for Plasma Physics, Max Planck Society;

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Mantica, P., Angioni, C., Baiocchi, B., Challis, C., Citrin, J., Colyer, G., et al. (2012). A Key to Improved Ion Core Confinement in the JET Tokamak: Ion Stiffness Mitigation due to Combined Plasma Rotation and Low Magnetic Shear. In Proceedings of the 23rd IAEA Fusion Energy Conference. Vienna: International Atomic Energy Agency.

Cite as: https://hdl.handle.net/11858/00-001M-0000-0026-E389-7

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