Numerical simulation of plasma profile changes in TEXTOR by externally driven radial polarization currents

H. Gerhauser; R. Zagórski; S. Jachmich; Michael Van Schoor

doi:10.1016/S0022-3115(02)01472-1

Numerical simulation of plasma profile changes in TEXTOR by externally driven radial polarization currents

H. Gerhauser, R. Zagórski, S. Jachmich, Michael Van Schoor

Research output: Contribution to journal › Conference article › peer-review

Abstract

An improved version of the 2D multifluid code TECXY is used to simulate polarization or biassing experiments on TEXTOR tokamak. In the numerical model the condition of globally ambipolar radial transport in the transition layer is replaced by externally driven radial polarization currents. They are produced by inserting and biassing an electrode with its tip a few centimeters inside the separatrix. The ensuing additional potential drop in the transition layer and the concomitant plasma profile changes are calculated for both signs of polarization. A comparison of modelling results with experimental measurements is presented. The fluid model reproduces some features of the L-H-like transition, but not the locally very high electric fields after bifurcation which are probably related to kinetic effects at very low collisionality.

Original language	English
Pages (from-to)	893-898
Number of pages	6
Journal	Journal of Nuclear Materials
Volume	313-316
Issue number	SUPPL.
DOIs	https://doi.org/10.1016/S0022-3115(02)01472-1
Publication status	Published - Mar 2003
Event	Plasma - Surface Interactions in Controlled Fusion Devices - Gifu, Japan Duration: 26 May 2002 → 31 May 2002

Keywords

Edge plasma modelling
Polarization experiment
Tokamak

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10.1016/S0022-3115(02)01472-1

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title = "Numerical simulation of plasma profile changes in TEXTOR by externally driven radial polarization currents",

abstract = "An improved version of the 2D multifluid code TECXY is used to simulate polarization or biassing experiments on TEXTOR tokamak. In the numerical model the condition of globally ambipolar radial transport in the transition layer is replaced by externally driven radial polarization currents. They are produced by inserting and biassing an electrode with its tip a few centimeters inside the separatrix. The ensuing additional potential drop in the transition layer and the concomitant plasma profile changes are calculated for both signs of polarization. A comparison of modelling results with experimental measurements is presented. The fluid model reproduces some features of the L-H-like transition, but not the locally very high electric fields after bifurcation which are probably related to kinetic effects at very low collisionality.",

keywords = "Edge plasma modelling, Polarization experiment, Tokamak",

author = "H. Gerhauser and R. Zag{\'o}rski and S. Jachmich and {Van Schoor}, Michael",

year = "2003",

month = mar,

doi = "10.1016/S0022-3115(02)01472-1",

language = "English",

volume = "313-316",

pages = "893--898",

journal = "Journal of Nuclear Materials",

issn = "0022-3115",

number = "SUPPL.",

note = "Plasma - Surface Interactions in Controlled Fusion Devices ; Conference date: 26-05-2002 Through 31-05-2002",

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TY - JOUR

T1 - Numerical simulation of plasma profile changes in TEXTOR by externally driven radial polarization currents

AU - Gerhauser, H.

AU - Zagórski, R.

AU - Jachmich, S.

AU - Van Schoor, Michael

PY - 2003/3

Y1 - 2003/3

N2 - An improved version of the 2D multifluid code TECXY is used to simulate polarization or biassing experiments on TEXTOR tokamak. In the numerical model the condition of globally ambipolar radial transport in the transition layer is replaced by externally driven radial polarization currents. They are produced by inserting and biassing an electrode with its tip a few centimeters inside the separatrix. The ensuing additional potential drop in the transition layer and the concomitant plasma profile changes are calculated for both signs of polarization. A comparison of modelling results with experimental measurements is presented. The fluid model reproduces some features of the L-H-like transition, but not the locally very high electric fields after bifurcation which are probably related to kinetic effects at very low collisionality.

AB - An improved version of the 2D multifluid code TECXY is used to simulate polarization or biassing experiments on TEXTOR tokamak. In the numerical model the condition of globally ambipolar radial transport in the transition layer is replaced by externally driven radial polarization currents. They are produced by inserting and biassing an electrode with its tip a few centimeters inside the separatrix. The ensuing additional potential drop in the transition layer and the concomitant plasma profile changes are calculated for both signs of polarization. A comparison of modelling results with experimental measurements is presented. The fluid model reproduces some features of the L-H-like transition, but not the locally very high electric fields after bifurcation which are probably related to kinetic effects at very low collisionality.

KW - Edge plasma modelling

KW - Polarization experiment

KW - Tokamak

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U2 - 10.1016/S0022-3115(02)01472-1

DO - 10.1016/S0022-3115(02)01472-1

M3 - Conference article

AN - SCOPUS:0037346761

SN - 0022-3115

VL - 313-316

SP - 893

EP - 898

JO - Journal of Nuclear Materials

JF - Journal of Nuclear Materials

IS - SUPPL.

T2 - Plasma - Surface Interactions in Controlled Fusion Devices

Y2 - 26 May 2002 through 31 May 2002

ER -

Numerical simulation of plasma profile changes in TEXTOR by externally driven radial polarization currents

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