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Cryogenic pellet launcher adapted for controlling of tokamak plasma edge instabilities

One of the main challenges posed recently on pellet launcher systems in fusion-oriented plasma physics is the control of the plasma edge region. Strong energy bursts ejected from the plasma due to edge localized modes (ELMs) can form a severe threat for in-vessel components but can be mitigated by s...

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Bibliographic Details
Published in:Review of scientific instruments 2007-02, Vol.78 (2), p.023504
Main Authors: Lang, P T, Cierpka, P, Harhausen, J, Neuhauser, J, Wittmann, C, Gál, K, Kálvin, S, Kocsis, G, Sárközi, J, Szepesi, T, Dorner, C, Kauke, G
Format: Article
Language:English
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Summary:One of the main challenges posed recently on pellet launcher systems in fusion-oriented plasma physics is the control of the plasma edge region. Strong energy bursts ejected from the plasma due to edge localized modes (ELMs) can form a severe threat for in-vessel components but can be mitigated by sufficiently frequent triggering of the underlying instabilities using hydrogen isotope pellet injection. However, pellet injection systems developed mainly for the task of ELM control, keeping the unwanted pellet fueling minimized, are still missing. Here, we report on a novel system developed under the premise of its suitability for control and mitigation of plasma edge instabilities. The system is based on the blower gun principle and is capable of combining high repetition rates up to 143 Hz with low pellet velocities. Thus, the flexibility of the accessible injection geometry can be maximized and the pellet size kept low. As a result the new system allows for an enhancement in the tokamak operation as well as for more sophisticated experiments investigating the underlying physics of the plasma edge instabilities. This article reports on the design of the new system, its main operational characteristics as determined in extensive test bed runs, and also its first test at the tokamak experiment ASDEX Upgrade.
ISSN:0034-6748
1089-7623
DOI:10.1063/1.2437116