Physics Design of a High-B Quasi-Axisymmetric Stellarator
Reiman, A; Fu, Guangsheng; Hirshman, S; Ku, L; Monticello, D; Mynick, H; Redi, M H; Spong, D; Zarnstorff, M; Blackwell, Boyd; Boozer, A; Brooks, A; Cooper, W A; Drevlak, M; Goldston, R; Harris, Jeffrey; Isaev, M; Kessel, C; Lin, Yan Xia; Lyon, J; Merkel, P; Mikhailov, M; Miner, W; Nakajima, N; Neilson, G; Nuehrnberg, Carolin; Okamoto, M; Pomphrey, N; Reiersen, W; Sanchez, R; Schmidt, Jan; Subbotin, A; Valanju, P; Watanabe, K; White, Ronald Douglas
Key physics issues in the design of a high-β quasi-axisymmetric stellarator configuration are discussed. The goal of the design study is a compact stellarator configuration with aspect ratio comparable to that of tokamaks and good transport and stability
|Collections||ANU Research Publications|
|Source:||Plasma Physics and Controlled Fusion|
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