Multiple-tracer TESPEL injection for studying impurity behaviour in a magnetically confined plasma

A new diagnostic method with tracer-encapsulated solid pellet (TESPEL) injection with multiple tracers is developed to study impurity behaviour in a magnetically confined plasma. If a pellet contains multiple tracers, it becomes possible to compare the behaviour of different impurities simultaneousl...

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Bibliographic Details
Published in:Nuclear fusion 2012-06, Vol.52 (6), p.63012-15
Main Authors: Sudo, Shigeru, Tamura, Naoki, Suzuki, Chihiro, Muto, Sadatsugu, Funaba, Hisamichi
Format: Article
Language:English
Subjects:
Chromium
Devices
Impurities
Iron
Manganese
Pellets
Plasma density
Tracers
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Summary:A new diagnostic method with tracer-encapsulated solid pellet (TESPEL) injection with multiple tracers is developed to study impurity behaviour in a magnetically confined plasma. If a pellet contains multiple tracers, it becomes possible to compare the behaviour of different impurities simultaneously under the same plasma conditions. We injected a TESPEL into the Large Helical Device mainly with triple tracers: vanadium (V), manganese (Mn) and cobalt (Co). The Li-like lines in the vacuum ultraviolet range and the Kα lines in the soft x-ray range from these tracers are simultaneously observed with a time resolution of 50 ms. As the charges of the nuclei of intrinsic impurities, chromium (Cr) and iron (Fe), are in between those of the tracers, the behaviour of Cr and Fe can be studied quantitatively by knowing the number of tracer particles and also by comparing the emission intensity change due to the electron temperature change. It is observed that the tracer impurities remain in the plasma core region when the plasma density is higher than 5 × 1019 m−3. It is also observed that the intrinsic impurities cannot enter the core region when the plasma density is higher than the same level, although the two phenomena appear to be independent.
ISSN:0029-5515
1741-4326
DOI:10.1088/0029-5515/52/6/063012