Edge and divertor plasma: detachment, stability, and plasma-wall interactions

The paper presents an overview of the results of studies on a wide range of the edge plasma related issues. The rollover of the plasma flux to the target during progressing detachment process is shown to be caused by the increase of the impurity radiation loss and volumetric plasma recombination, wh...

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Bibliographic Details
Published in:Nuclear fusion 2017-10, Vol.57 (10), p.102010
Main Authors: Krasheninnikov, S.I., Kukushkin, A.S., Lee, Wonjae, Phsenov, A.A., Smirnov, R.D., Smolyakov, A.I., Stepanenko, A.A., Zhang, Yanzeng
Format: Article
Language:English
Subjects:
blobs
current convective instability
divertor detachment
edge plasma
He nano-bubbles
Physics
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Summary:The paper presents an overview of the results of studies on a wide range of the edge plasma related issues. The rollover of the plasma flux to the target during progressing detachment process is shown to be caused by the increase of the impurity radiation loss and volumetric plasma recombination, whereas the ion-neutral friction, although important for establishing the necessary edge plasma conditions, does not contribute per se to the rollover of the plasma flux to the target. The processes limiting the power loss by impurity radiation are discussed and a simple estimate of this limit is obtained. Different mechanisms of meso-scale thermal instabilities driven by impurity radiation and resulting in self-sustained oscillations in the edge plasma are identified. An impact of sheared magnetic field on the dynamics of the blobs and ELM filaments playing an important role in the edge and SOL plasma transport is discussed. Trapping of He, which is an intrinsic impurity for the fusion plasmas, in the plasma-facing tungsten material is considered. A newly developed model, accounting for the generation of additional He traps caused by He bubble growth, fits all the available experimental data on the layer of nano-bubbles observed in W under irradiation by low energy He plasma.
ISSN:0029-5515
1741-4326
DOI:10.1088/1741-4326/aa6d25