Modelling of (2,1) NTM threshold in JET advanced scenarios

P. Maget; H. Lütjens; R. Coelho; B. Alper; M. Brix; P. Buratti; R. J. Buttery; E. De La Luna; N. Hawkes; G. T.A. Huysmans; I. Jenkins; C. D. Challis; C. Giroud; X. Litaudon; J. Mailloux; M. Ottaviani

doi:10.1088/0029-5515/50/4/045004

Modelling of (2,1) NTM threshold in JET advanced scenarios

P. Maget
, H. Lütjens
, R. Coelho
, B. Alper
, M. Brix
, P. Buratti
, R. J. Buttery
, E. De La Luna
, N. Hawkes
, G. T.A. Huysmans
, I. Jenkins
, C. D. Challis
, C. Giroud
, X. Litaudon
, J. Mailloux
, M. Ottaviani

Research output: Contribution to journal › Article › peer-review

Abstract

The limit to high performances advanced scenario discharges with q _min above unity is generally set by the (2,1) magneto-hydro-dynamic (MHD) mode in JET. We investigate here the possibility that this mode is a (2,1) neoclassical tearing mode (NTM) by computing the critical island width at which such mode would be unstable, using a non-linear MHD code where the relevant bootstrap current physics is accounted for. We show that the triggering of a (2,1) NTM is consistent with a lowering of the critical island width as the plasma current diffuses towards the centre. This is explained partly by the increase in the magnetic shear at the resonant surface, which weakens the curvature stabilization term, as found in the analytical framework of a generalized Rutherford equation. A comparison with experiment is made in the non-linear regime, showing encouraging results on the dynamics of the confinement degradation and mode structure.

Original language	English
Article number	045004
Journal	Nuclear Fusion
Volume	50
Issue number	4
DOIs	https://doi.org/10.1088/0029-5515/50/4/045004
Publication status	Published - 1 Jan 2010

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Maget, P., Lütjens, H., Coelho, R., Alper, B., Brix, M., Buratti, P., Buttery, R. J., De La Luna, E., Hawkes, N., Huysmans, G. T. A., Jenkins, I., Challis, C. D., Giroud, C., Litaudon, X., Mailloux, J., & Ottaviani, M. (2010). Modelling of (2,1) NTM threshold in JET advanced scenarios. Nuclear Fusion, 50(4), Article 045004. https://doi.org/10.1088/0029-5515/50/4/045004

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title = "Modelling of (2,1) NTM threshold in JET advanced scenarios",

abstract = "The limit to high performances advanced scenario discharges with q min above unity is generally set by the (2,1) magneto-hydro-dynamic (MHD) mode in JET. We investigate here the possibility that this mode is a (2,1) neoclassical tearing mode (NTM) by computing the critical island width at which such mode would be unstable, using a non-linear MHD code where the relevant bootstrap current physics is accounted for. We show that the triggering of a (2,1) NTM is consistent with a lowering of the critical island width as the plasma current diffuses towards the centre. This is explained partly by the increase in the magnetic shear at the resonant surface, which weakens the curvature stabilization term, as found in the analytical framework of a generalized Rutherford equation. A comparison with experiment is made in the non-linear regime, showing encouraging results on the dynamics of the confinement degradation and mode structure.",

author = "P. Maget and H. L{\"u}tjens and R. Coelho and B. Alper and M. Brix and P. Buratti and Buttery, \{R. J.\} and \{De La Luna\}, E. and N. Hawkes and Huysmans, \{G. T.A.\} and I. Jenkins and Challis, \{C. D.\} and C. Giroud and X. Litaudon and J. Mailloux and M. Ottaviani",

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doi = "10.1088/0029-5515/50/4/045004",

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T1 - Modelling of (2,1) NTM threshold in JET advanced scenarios

AU - Maget, P.

AU - Lütjens, H.

AU - Coelho, R.

AU - Alper, B.

AU - Brix, M.

AU - Buratti, P.

AU - Buttery, R. J.

AU - De La Luna, E.

AU - Hawkes, N.

AU - Huysmans, G. T.A.

AU - Jenkins, I.

AU - Challis, C. D.

AU - Giroud, C.

AU - Litaudon, X.

AU - Mailloux, J.

AU - Ottaviani, M.

PY - 2010/1/1

Y1 - 2010/1/1

N2 - The limit to high performances advanced scenario discharges with q min above unity is generally set by the (2,1) magneto-hydro-dynamic (MHD) mode in JET. We investigate here the possibility that this mode is a (2,1) neoclassical tearing mode (NTM) by computing the critical island width at which such mode would be unstable, using a non-linear MHD code where the relevant bootstrap current physics is accounted for. We show that the triggering of a (2,1) NTM is consistent with a lowering of the critical island width as the plasma current diffuses towards the centre. This is explained partly by the increase in the magnetic shear at the resonant surface, which weakens the curvature stabilization term, as found in the analytical framework of a generalized Rutherford equation. A comparison with experiment is made in the non-linear regime, showing encouraging results on the dynamics of the confinement degradation and mode structure.

AB - The limit to high performances advanced scenario discharges with q min above unity is generally set by the (2,1) magneto-hydro-dynamic (MHD) mode in JET. We investigate here the possibility that this mode is a (2,1) neoclassical tearing mode (NTM) by computing the critical island width at which such mode would be unstable, using a non-linear MHD code where the relevant bootstrap current physics is accounted for. We show that the triggering of a (2,1) NTM is consistent with a lowering of the critical island width as the plasma current diffuses towards the centre. This is explained partly by the increase in the magnetic shear at the resonant surface, which weakens the curvature stabilization term, as found in the analytical framework of a generalized Rutherford equation. A comparison with experiment is made in the non-linear regime, showing encouraging results on the dynamics of the confinement degradation and mode structure.

U2 - 10.1088/0029-5515/50/4/045004

DO - 10.1088/0029-5515/50/4/045004

M3 - Article

AN - SCOPUS:77950652090

SN - 0029-5515

VL - 50

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 4

M1 - 045004

ER -

Modelling of (2,1) NTM threshold in JET advanced scenarios

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