Influence of the q-profile shape on plasma performance in JET

C. D. Challis; X. Litaudon; G. Tresset; Yu F. Baranov; A. Bécoulet; C. Giroud; N. C. Hawkes; D. F. Howell; E. Joffrin; P. J. Lomas; J. Mailloux; M. J. Mantsinen; B. C. Stratton; D. J. Ward; K. D. Zastrow

doi:10.1088/0741-3335/44/7/301

Influence of the q-profile shape on plasma performance in JET

C. D. Challis, X. Litaudon, G. Tresset, Yu F. Baranov, A. Bécoulet, C. Giroud, N. C. Hawkes, D. F. Howell, E. Joffrin, P. J. Lomas, J. Mailloux, M. J. Mantsinen, B. C. Stratton, D. J. Ward, K. D. Zastrow

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Abstract

The fusion performance of JET plasmas can be enhanced by the generation of internal transport barriers. The influence of the q-profile shape in the local and global plasma performance has been investigated in cases where the core magnetic shear ranges from small and positive to large and negative. Internal barriers extending to large plasma radii can be effective in raising the global performance of the plasma. It is found that such barriers tend to be generated more easily if the q-profile contains a region of negative magnetic shear. The formation is favoured by neutral beam injection compared with ion cyclotron resonance heating in scenarios where the two systems are used together. The minimum power level required to observe a local transport reduction is significantly lower than the value at which very steep pressure gradients can be achieved. This results in a practical threshold in the power to access a regime of high plasma performance that is sensitive to the q-profile shape.

Original language	English (US)
Article number	301
Pages (from-to)	1031-1055
Number of pages	25
Journal	Plasma Physics and Controlled Fusion
Volume	44
Issue number	7
DOIs	https://doi.org/10.1088/0741-3335/44/7/301
State	Published - Jul 2002

All Science Journal Classification (ASJC) codes

Nuclear Energy and Engineering
Condensed Matter Physics

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Challis, C. D., Litaudon, X., Tresset, G., Baranov, Y. F., Bécoulet, A., Giroud, C., Hawkes, N. C., Howell, D. F., Joffrin, E., Lomas, P. J., Mailloux, J., Mantsinen, M. J., Stratton, B. C., Ward, D. J., & Zastrow, K. D. (2002). Influence of the q-profile shape on plasma performance in JET. Plasma Physics and Controlled Fusion, 44(7), 1031-1055. Article 301. https://doi.org/10.1088/0741-3335/44/7/301

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title = "Influence of the q-profile shape on plasma performance in JET",

abstract = "The fusion performance of JET plasmas can be enhanced by the generation of internal transport barriers. The influence of the q-profile shape in the local and global plasma performance has been investigated in cases where the core magnetic shear ranges from small and positive to large and negative. Internal barriers extending to large plasma radii can be effective in raising the global performance of the plasma. It is found that such barriers tend to be generated more easily if the q-profile contains a region of negative magnetic shear. The formation is favoured by neutral beam injection compared with ion cyclotron resonance heating in scenarios where the two systems are used together. The minimum power level required to observe a local transport reduction is significantly lower than the value at which very steep pressure gradients can be achieved. This results in a practical threshold in the power to access a regime of high plasma performance that is sensitive to the q-profile shape.",

author = "Challis, \{C. D.\} and X. Litaudon and G. Tresset and Baranov, \{Yu F.\} and A. B{\'e}coulet and C. Giroud and Hawkes, \{N. C.\} and Howell, \{D. F.\} and E. Joffrin and Lomas, \{P. J.\} and J. Mailloux and Mantsinen, \{M. J.\} and Stratton, \{B. C.\} and Ward, \{D. J.\} and Zastrow, \{K. D.\}",

year = "2002",

month = jul,

doi = "10.1088/0741-3335/44/7/301",

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pages = "1031--1055",

journal = "Plasma Physics and Controlled Fusion",

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Challis, CD, Litaudon, X, Tresset, G, Baranov, YF, Bécoulet, A, Giroud, C, Hawkes, NC, Howell, DF, Joffrin, E, Lomas, PJ, Mailloux, J, Mantsinen, MJ, Stratton, BC, Ward, DJ & Zastrow, KD 2002, 'Influence of the q-profile shape on plasma performance in JET', Plasma Physics and Controlled Fusion, vol. 44, no. 7, 301, pp. 1031-1055. https://doi.org/10.1088/0741-3335/44/7/301

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AU - Challis, C. D.

AU - Litaudon, X.

AU - Tresset, G.

AU - Baranov, Yu F.

AU - Bécoulet, A.

AU - Giroud, C.

AU - Hawkes, N. C.

AU - Howell, D. F.

AU - Joffrin, E.

AU - Lomas, P. J.

AU - Mailloux, J.

AU - Mantsinen, M. J.

AU - Stratton, B. C.

AU - Ward, D. J.

AU - Zastrow, K. D.

PY - 2002/7

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N2 - The fusion performance of JET plasmas can be enhanced by the generation of internal transport barriers. The influence of the q-profile shape in the local and global plasma performance has been investigated in cases where the core magnetic shear ranges from small and positive to large and negative. Internal barriers extending to large plasma radii can be effective in raising the global performance of the plasma. It is found that such barriers tend to be generated more easily if the q-profile contains a region of negative magnetic shear. The formation is favoured by neutral beam injection compared with ion cyclotron resonance heating in scenarios where the two systems are used together. The minimum power level required to observe a local transport reduction is significantly lower than the value at which very steep pressure gradients can be achieved. This results in a practical threshold in the power to access a regime of high plasma performance that is sensitive to the q-profile shape.

AB - The fusion performance of JET plasmas can be enhanced by the generation of internal transport barriers. The influence of the q-profile shape in the local and global plasma performance has been investigated in cases where the core magnetic shear ranges from small and positive to large and negative. Internal barriers extending to large plasma radii can be effective in raising the global performance of the plasma. It is found that such barriers tend to be generated more easily if the q-profile contains a region of negative magnetic shear. The formation is favoured by neutral beam injection compared with ion cyclotron resonance heating in scenarios where the two systems are used together. The minimum power level required to observe a local transport reduction is significantly lower than the value at which very steep pressure gradients can be achieved. This results in a practical threshold in the power to access a regime of high plasma performance that is sensitive to the q-profile shape.

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Influence of the q-profile shape on plasma performance in JET

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