The impact of boundary plasma conditions on the plasma performance of the Wendelstein 7-AS stellarator
1992; Elsevier BV; Volume: 196-198; Linguagem: Inglês
10.1016/s0022-3115(06)80016-4
ISSN1873-4820
AutoresP. Grigull, R. Behrisch, R. Brakel, R. Burhenn, A. Elsner, H. Hacker, H.-J. Hartfuß, G. Herre, Diane Hildebrandt, R. Jaenicke, J. Kißlinger, H. Maaßberg, C. Mahn, H. Niedermeyer, P. Pech, H. Renner, H. Ringler, F. Rau, J. Roth, F. Sardei, Uwe Schneider, F. Wagner, A. Weller, H. Wobig, Hans Wolff,
Tópico(s)Particle accelerators and beam dynamics
ResumoIn the modular advanced stellarator W7-AS, the plasma performance and the main characteristics of the plasma-wall interaction are strongly affected by the three-dimensional edge topology. Both limiter-and separatrix-dominated configurations are possible. TiC and bulk-boronized limiter materials have been used. The impurity behaviour and the accessible plasma parameter ranges are compared for different limiter and wall conditions. With limiters, optimum plasma performance in currentless ECRF-or NBI-heated discharges was achieved with bulk-boronized graphite limiter material and boronized walls. Solid target sputter boronization, however, was found to be ineffective in comparison with boronization by He/B2H6 glow discharges. For separatrix-dominated discharges, conditioning by wall coating has short-term effects only. Enhanced, localized plasma outflow to the wall due to islands at the boundary quickly erodes the layers. The possibility to develop a divertor concept is discussed. Basic properties of the plasma edge edge as derived from Langmuir probes and limiter calorimetry are described. Modeling is complicated by three-dimensionality. In a first approach, a 1D edge transport model on the basis of distinct flux bundles is applied.
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