期刊
PLASMA PHYSICS AND CONTROLLED FUSION
卷 65, 期 12, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1088/1361-6587/ad09fd
关键词
tokamak; ICRH; tungsten; neoclassical; rotation; WEST; fusion
The observation of radiative collapses during ion cyclotron resonance heating on the full tungsten WEST tokamak provides a unique opportunity to quantify the sources and sinks in the core plasma region. Experimental analysis and numerical modelling reveal a significant reduction in the effective electron heat source from ICRH, as well as a complex interplay of mechanisms affecting the collisional peaking of tungsten.
The observation of radiative collapses during ion cyclotron resonance heating (ICRH) operation on the full tungsten WEST tokamak constitutes a unique opportunity to get a quantitative balance of the sources and sinks in the core region of the plasma. Experimental analysis and numerical modelling evidence a significant reduction of the effective electron heat source delivered by ICRH compared with expectations on the one hand, and a complex interplay of mechanisms acting on the collisional peaking of tungsten on the other hand. Besides providing an explanation for the observed radiative collapses, this work outlines the variety of phenomenon determining the tungsten profile in ICRH operation.
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