Modified heat load deposition of the ELM crash due to n = 2 perturbation fields at JET

M. Rack; B. Sieglin; J. Pearson; T. Eich; Y. Liang; P. Denner; A. Wingen; L. Zeng; I. Balboa; S. Jachmich

doi:10.1088/0029-5515/54/6/064012

Modified heat load deposition of the ELM crash due to n = 2 perturbation fields at JET

M. Rack, B. Sieglin, J. Pearson, T. Eich, Y. Liang, P. Denner, A. Wingen, L. Zeng, I. Balboa, S. Jachmich

Advanced Tokamak Physics

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

8 Scopus citations

Abstract

Significant changes in the edge localized mode (ELM) crash heat load deposition patterns compared to typical ELMs are seen via infra-red observations during resonant magnetic perturbation experiments at the Joint European Torus (JET). These modifications result from the changed magnetic topology of the plasma, caused by the perturbations. Dependences on the perturbation strength and the edge safety factor are analysed and discussed. A thermoelectric current model shows that current filaments in the plasma edge could explain the observations. This study gives an insight into how the changed magnetic topology affects the peak heat fluxes of ELMs which is crucial for understanding ELM control.

Original language	English
Article number	064012
Journal	Nuclear Fusion
Volume	54
Issue number	6
DOIs	https://doi.org/10.1088/0029-5515/54/6/064012
State	Published - Jun 2014

Keywords

JET
divertor heat load deposition
edge localized modes
resonant magnetic perturbations
thermoelectric current model

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10.1088/0029-5515/54/6/064012

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title = "Modified heat load deposition of the ELM crash due to n = 2 perturbation fields at JET",

abstract = "Significant changes in the edge localized mode (ELM) crash heat load deposition patterns compared to typical ELMs are seen via infra-red observations during resonant magnetic perturbation experiments at the Joint European Torus (JET). These modifications result from the changed magnetic topology of the plasma, caused by the perturbations. Dependences on the perturbation strength and the edge safety factor are analysed and discussed. A thermoelectric current model shows that current filaments in the plasma edge could explain the observations. This study gives an insight into how the changed magnetic topology affects the peak heat fluxes of ELMs which is crucial for understanding ELM control.",

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AU - Rack, M.

AU - Sieglin, B.

AU - Pearson, J.

AU - Eich, T.

AU - Liang, Y.

AU - Denner, P.

AU - Wingen, A.

AU - Zeng, L.

AU - Balboa, I.

AU - Jachmich, S.

PY - 2014/6

Y1 - 2014/6

N2 - Significant changes in the edge localized mode (ELM) crash heat load deposition patterns compared to typical ELMs are seen via infra-red observations during resonant magnetic perturbation experiments at the Joint European Torus (JET). These modifications result from the changed magnetic topology of the plasma, caused by the perturbations. Dependences on the perturbation strength and the edge safety factor are analysed and discussed. A thermoelectric current model shows that current filaments in the plasma edge could explain the observations. This study gives an insight into how the changed magnetic topology affects the peak heat fluxes of ELMs which is crucial for understanding ELM control.

AB - Significant changes in the edge localized mode (ELM) crash heat load deposition patterns compared to typical ELMs are seen via infra-red observations during resonant magnetic perturbation experiments at the Joint European Torus (JET). These modifications result from the changed magnetic topology of the plasma, caused by the perturbations. Dependences on the perturbation strength and the edge safety factor are analysed and discussed. A thermoelectric current model shows that current filaments in the plasma edge could explain the observations. This study gives an insight into how the changed magnetic topology affects the peak heat fluxes of ELMs which is crucial for understanding ELM control.

KW - JET

KW - divertor heat load deposition

KW - edge localized modes

KW - resonant magnetic perturbations

KW - thermoelectric current model

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VL - 54

JO - Nuclear Fusion

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ER -

Modified heat load deposition of the ELM crash due to n = 2 perturbation fields at JET

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Keywords

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