1. ICRF Heating in JET During Initial Operations with the ITER-Like Wall.
- Author
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Jacquet, P., Bobkov, V., Brezinsek, S., Brix, M., Campergue, A-L., Colas, L., Czarnecka, A., Drewelow, P., Graham, M., Klepper, C. C., Lerche, E., Mayoral, M.-L., Meigs, A., Milanesio, D., Monakhov, I., Mlynar, J., Pütterich, T., Sirinelli, A., and Van-Eester, D.
- Subjects
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TUNGSTEN , *FUSION reactor divertors , *BERYLLIUM , *CYCLOTRON resonance , *PLASMA heating , *ANTENNAS in plasma , *PLASMA core reactors - Abstract
In 2011/12, JET started operation with its new ITER-Like Wall (ILW) made of a tungsten (W) divertor and a beryllium (Be) main chamber wall. The impact of the new wall material on the JET Ion Cyclotron Resonance Frequency (ICRF) operation was assessed and also the properties of JET plasmas heated with ICRF were studied. No substantial change of the antenna coupling resistance was observed with the ILW as compared with the carbon wall. Heat-fluxes on the protecting limiters close the antennas quantified using Infra-Red (IR) thermography (maximum 4.5 MW/m² in current drive phasing) are within the wall power load handling capabilities. A simple RF sheath rectification model using the antenna near-fields calculated with the TOPICA code can well reproduce the heat-flux pattern around the antennas. ICRF heating results in larger tungsten and nickel (Ni) contents in the plasma and in a larger core radiation when compared to Neutral Beam Injection (NBI) heating. Some experimental facts indicate that main-chamber W components could be an important impurity source: the divertor W influx deduced from spectroscopy is comparable when using RF or NBI at same power and comparable divertor conditions; the W content is also increased in ICRF-heated limiter plasmas; and Be evaporation in the main chamber results in a strong and long lasting reduction of the impurity level. The ICRF specific high-Z impurity content decreased when operating at higher plasma density and when increasing the hydrogen concentration from 5% to 20%. Despite the higher plasma bulk radiation, ICRF exhibited overall good plasma heating efficiency; The ICRF power can be deposited at plasma centre and the radiation is mainly from the outer part of the plasma. Application of ICRF heating in H-mode plasmas started, and the beneficial effect of ICRF central electron heating to prevent W accumulation in the plasma core could be observed. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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