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Author(s):
S. Murakami, A. Wakasa, H. Maa¦Âberg, C.D. Beidler, H. Yamada, K.Y. Watanabe and LHD Experimental Group
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Title:
Neoclassical Transport Optimization of LHD
Date of publication:
June 2002
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Key words:
neoclassical transport, optimization, heliotron, LHD, Monte Carlo method
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Abstract:
Neoclassical transport is studied for LHD configurations in which the magnetic axis has been shifted radially by determining the mono-energetic transport coefficient and the effective helical ripple. With respect to the transport in the long mean free path collisionality region- the so called 1/nu transport -, the optimum configuration is found when the magnetic axis has a major radius of 3.53m, which is 0.22m inward shifted from the "standard" configuration of LHD. In the optimized case, the effective helical ripple is very small, remaining below 2% inside 4/5 of the plasma radius. This indicates that a strong inward shift of the magnetic axis in the LHD can diminish the neoclassical transport to a level typical of so-called "advanced stellarators".
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