MHD stability of (2,1) tearing mode: An issue for the preforming phase of Tore Supra non-inductive discharges

P. Maget; H. Lütjens; G. Huysmans; Ph Moreau; B. Schunke; J. L. Ségui; X. Garbet; E. Joffrin; J. F. Luciani

doi:10.1088/0029-5515/47/3/011

MHD stability of (2,1) tearing mode: An issue for the preforming phase of Tore Supra non-inductive discharges

P. Maget
, H. Lütjens
, G. Huysmans
, Ph Moreau
, B. Schunke
, J. L. Ségui
, X. Garbet
, E. Joffrin
, J. F. Luciani

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

Abstract

The early phase of a tokamak plasma discharge can have a dramatic impact on the main heating phase. This has been a persistent problem for the development of the steady state, fully non-inductive scenario using lower hybrid current drive (LHCD) on Tore Supra. The present paper reports on recent experimental and numerical investigations showing that a tearing mode coupled to the internal kink grows on q ≤ 2 in the ohmic phase when the total current is too low, due to the weakening of field line curvature stabilization. Then, the application of LHCD drives the island to a larger size and undermines the development of the non-inductive phase. Decreasing the edge safety factor or increasing the Lundquist number S is found to be beneficial in both the linear and non-linear MHD analyses. The experimental database, which allows covering the edge safety factor dependence, supports this interpretation.

Original language	English
Article number	011
Pages (from-to)	233-243
Number of pages	11
Journal	Nuclear Fusion
Volume	47
Issue number	3
DOIs	https://doi.org/10.1088/0029-5515/47/3/011
Publication status	Published - 1 Mar 2007

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title = "MHD stability of (2,1) tearing mode: An issue for the preforming phase of Tore Supra non-inductive discharges",

abstract = "The early phase of a tokamak plasma discharge can have a dramatic impact on the main heating phase. This has been a persistent problem for the development of the steady state, fully non-inductive scenario using lower hybrid current drive (LHCD) on Tore Supra. The present paper reports on recent experimental and numerical investigations showing that a tearing mode coupled to the internal kink grows on q ≤ 2 in the ohmic phase when the total current is too low, due to the weakening of field line curvature stabilization. Then, the application of LHCD drives the island to a larger size and undermines the development of the non-inductive phase. Decreasing the edge safety factor or increasing the Lundquist number S is found to be beneficial in both the linear and non-linear MHD analyses. The experimental database, which allows covering the edge safety factor dependence, supports this interpretation.",

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AU - Maget, P.

AU - Lütjens, H.

AU - Huysmans, G.

AU - Moreau, Ph

AU - Schunke, B.

AU - Ségui, J. L.

AU - Garbet, X.

AU - Joffrin, E.

AU - Luciani, J. F.

PY - 2007/3/1

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N2 - The early phase of a tokamak plasma discharge can have a dramatic impact on the main heating phase. This has been a persistent problem for the development of the steady state, fully non-inductive scenario using lower hybrid current drive (LHCD) on Tore Supra. The present paper reports on recent experimental and numerical investigations showing that a tearing mode coupled to the internal kink grows on q ≤ 2 in the ohmic phase when the total current is too low, due to the weakening of field line curvature stabilization. Then, the application of LHCD drives the island to a larger size and undermines the development of the non-inductive phase. Decreasing the edge safety factor or increasing the Lundquist number S is found to be beneficial in both the linear and non-linear MHD analyses. The experimental database, which allows covering the edge safety factor dependence, supports this interpretation.

AB - The early phase of a tokamak plasma discharge can have a dramatic impact on the main heating phase. This has been a persistent problem for the development of the steady state, fully non-inductive scenario using lower hybrid current drive (LHCD) on Tore Supra. The present paper reports on recent experimental and numerical investigations showing that a tearing mode coupled to the internal kink grows on q ≤ 2 in the ohmic phase when the total current is too low, due to the weakening of field line curvature stabilization. Then, the application of LHCD drives the island to a larger size and undermines the development of the non-inductive phase. Decreasing the edge safety factor or increasing the Lundquist number S is found to be beneficial in both the linear and non-linear MHD analyses. The experimental database, which allows covering the edge safety factor dependence, supports this interpretation.

UR - https://www.scopus.com/pages/publications/34247208091

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MHD stability of (2,1) tearing mode: An issue for the preforming phase of Tore Supra non-inductive discharges

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