Tearing mode formation and radiative edge cooling prior to density limit disruptions in ASDEX Upgrade

W. Suttrop; K. Büchl; J. C. Fuchs; M. Kaufmann; K. Lackner; M. Maraschek; V. Mertens; R. Neu; M. Schittenhelm; M. Sokoll; H. Zohm

doi:10.1088/0029-5515/37/1/I09

Tearing mode formation and radiative edge cooling prior to density limit disruptions in ASDEX Upgrade

W. Suttrop, K. Büchl, J. C. Fuchs, M. Kaufmann, K. Lackner, M. Maraschek, V. Mertens, R. Neu, M. Schittenhelm, M. Sokoll, H. Zohm

Max Planck Institute for Plasma Physics

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

67 Scopus citations

Abstract

Tearing mode formation is investigated for ohmic density limit discharges on the ASDEX Upgrade tokamak at medium and high safety factors (q₉₅ = 3.8, 4.9, 6.0). Low electron temperatures inside magnetic islands and the observation of localized C III impurity radiation suggest that a thermal instability, as proposed by Rebut and Hugon, destabilizes the (m,n) = (3,1) and (4,1) islands, which grow during the current profile contraction phase. In contrast, the (2,1) islands appear to be thermally stable. Minor disruptions lead to step-wise loss of confinement, first localized at the q = 2 surface, then after a time delay comparable to the resistive time-scale, at the q = 3 surface and after a second time delay, at the q = 4 surface. It is found that (3,1) islands, unlike (2,1) islands, are quenched by the high heat flux during minor disruptions.

Original language	English
Pages (from-to)	119-125
Number of pages	7
Journal	Nuclear Fusion
Volume	37
Issue number	1
DOIs	https://doi.org/10.1088/0029-5515/37/1/I09
State	Published - Jan 1997
Externally published	Yes

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title = "Tearing mode formation and radiative edge cooling prior to density limit disruptions in ASDEX Upgrade",

abstract = "Tearing mode formation is investigated for ohmic density limit discharges on the ASDEX Upgrade tokamak at medium and high safety factors (q95 = 3.8, 4.9, 6.0). Low electron temperatures inside magnetic islands and the observation of localized C III impurity radiation suggest that a thermal instability, as proposed by Rebut and Hugon, destabilizes the (m,n) = (3,1) and (4,1) islands, which grow during the current profile contraction phase. In contrast, the (2,1) islands appear to be thermally stable. Minor disruptions lead to step-wise loss of confinement, first localized at the q = 2 surface, then after a time delay comparable to the resistive time-scale, at the q = 3 surface and after a second time delay, at the q = 4 surface. It is found that (3,1) islands, unlike (2,1) islands, are quenched by the high heat flux during minor disruptions.",

author = "W. Suttrop and K. B{\"u}chl and Fuchs, \{J. C.\} and M. Kaufmann and K. Lackner and M. Maraschek and V. Mertens and R. Neu and M. Schittenhelm and M. Sokoll and H. Zohm",

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T1 - Tearing mode formation and radiative edge cooling prior to density limit disruptions in ASDEX Upgrade

AU - Suttrop, W.

AU - Büchl, K.

AU - Fuchs, J. C.

AU - Kaufmann, M.

AU - Lackner, K.

AU - Maraschek, M.

AU - Mertens, V.

AU - Neu, R.

AU - Schittenhelm, M.

AU - Sokoll, M.

AU - Zohm, H.

PY - 1997/1

Y1 - 1997/1

N2 - Tearing mode formation is investigated for ohmic density limit discharges on the ASDEX Upgrade tokamak at medium and high safety factors (q95 = 3.8, 4.9, 6.0). Low electron temperatures inside magnetic islands and the observation of localized C III impurity radiation suggest that a thermal instability, as proposed by Rebut and Hugon, destabilizes the (m,n) = (3,1) and (4,1) islands, which grow during the current profile contraction phase. In contrast, the (2,1) islands appear to be thermally stable. Minor disruptions lead to step-wise loss of confinement, first localized at the q = 2 surface, then after a time delay comparable to the resistive time-scale, at the q = 3 surface and after a second time delay, at the q = 4 surface. It is found that (3,1) islands, unlike (2,1) islands, are quenched by the high heat flux during minor disruptions.

AB - Tearing mode formation is investigated for ohmic density limit discharges on the ASDEX Upgrade tokamak at medium and high safety factors (q95 = 3.8, 4.9, 6.0). Low electron temperatures inside magnetic islands and the observation of localized C III impurity radiation suggest that a thermal instability, as proposed by Rebut and Hugon, destabilizes the (m,n) = (3,1) and (4,1) islands, which grow during the current profile contraction phase. In contrast, the (2,1) islands appear to be thermally stable. Minor disruptions lead to step-wise loss of confinement, first localized at the q = 2 surface, then after a time delay comparable to the resistive time-scale, at the q = 3 surface and after a second time delay, at the q = 4 surface. It is found that (3,1) islands, unlike (2,1) islands, are quenched by the high heat flux during minor disruptions.

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DO - 10.1088/0029-5515/37/1/I09

M3 - Article

AN - SCOPUS:0030834684

SN - 0029-5515

VL - 37

SP - 119

EP - 125

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 1

ER -

Tearing mode formation and radiative edge cooling prior to density limit disruptions in ASDEX Upgrade

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