Numerical Study of the Ripple Resonance Diffusion of Alpha Particles in Tokamaks
スポンサーリンク
概要
- 論文の詳細を見る
The energy dependence of the diffusion coefficients of α particles in rippled fields of tokamaks is numerically investigated with an orbit-following Monte Carlo code. The diffusion coefficients are enhanced around the ripple resonance energy while they are not so much enhanced in the neighborhood of it. Consequently, they have a local minimum near the resonance energy, and hence they have an M-shaped energy dependence. Ripple resonance is caused by a radial change of the toroidal precession of banana particles, and creates islands in (Nφ, ψ) phase space. Since particles outside the separatrix are the main contributors to diffusion enhancement, the M-shaped energy dependence is explained by the co-existence of open and closed orbits in the phase space. Ripple resonance diffusion is dominant for fusion-produced α particles since the resonance energy width occupies a large portion of the energy range in their slowing-down processes.
著者
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Tobita Kenji
Japan Atomic Energy Research Institute
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Tsuji-Iio Shunji
Tokyo Institute of Technology
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Tsutsui Hiroaki
Tokyo Institute of Technology
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SHIMADA Ryuichi
Tokyo Institute of Technology
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SHIMADA Ryuichi
Tokyo Institute of Technology, Tokyo 152-8550, Japan
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MIMATA Hideyuki
Tokyo Institute of Technology, Tokyo 152-8550, Japan
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TANI Keiji
Nippon Advanced Technology Co., Ltd. Naka Office, Naka 311-0193, Japan
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TSUJI-IIO Shunji
Tokyo Institute of Technology, Tokyo 152-8550, Japan
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TSUTSUI Hiroaki
Tokyo Institute of Technology, Tokyo 152-8550, Japan
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TOBITA Kenji
Japan Atomic Energy Agency
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TOBITA Kenji
Japan Atomic Energy Agency, Naka 311-0193, Japan
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