会议论文详细信息
6th International Workshop & Summer School on Plasma Physics 2014
Soft X-ray tomography in support of impurity control in tokamaks
Mlynar, J.^1 ; Mazon, D.^2 ; Imrisek, M.^1 ; Loffelmann, V.^1 ; Malard, P.^2 ; Odstrcil, T.^3 ; Tomes, M.^1 ; Vezinet, D.^3 ; Weinzettl, V.^1
Institute of Plasma Physics AS CR, V.v.i., Za Slovankou 3, Praha 8
182 00, Czech Republic^1
IRFM, CEA Cadarache, Saint Paul lez Durance Cedex
13108, France^2
Max Planck Institute for Plasma Physics, Boltzmannstr. 2, Garching
85748, Germany^3
关键词: High temporal resolution;    High-temperature plasmas;    Integrated measurements;    Joint European Torus;    Novel numerical methods;    Photosensitive elements;    Plasma-facing components;    Soft x ray tomography;   
Others  :  https://iopscience.iop.org/article/10.1088/1742-6596/768/1/012001/pdf
DOI  :  10.1088/1742-6596/768/1/012001
来源: IOP
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【 摘 要 】

This contribution reviews an important example of current developments in diagnostic systems and data analysis tools aimed at improved understanding and control of transport processes in magnetically confined high temperature plasmas. The choice of tungsten for the plasma facing components of ITER and probably also DEMO means that impurity control in fusion plasmas is now a crucial challenge. Soft X-ray (SXR) diagnostic systems serve as a key sensor for experimental studies of plasma impurity transport with a clear prospective of its control via actuators based mainly on plasma heating systems. The SXR diagnostic systems typically feature high temporal resolution but limited spatial resolution due to access restrictions. In order to reconstruct the spatial distribution of the SXR radiation from line integrated measurements, appropriate tomographic methods have been developed and validated, while novel numerical methods relevant for real-time control have been proposed. Furthermore, in order to identify the main contributors to the SXR plasma radiation, at least partial control over the spectral sensitivity range of the detectors would be beneficial, which motivates for developments of novel SXR diagnostic methods. Last, but not least, semiconductor photosensitive elements cannot survive in harsh conditions of future fusion reactors due to radiation damage, which calls for development of radiation hard SXR detectors. Present research in this field is exemplified on recent results from tokamaks COMPASS, TORE SUPRA and the Joint European Torus JET. Further planning is outlined.

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