Partially Relaxed Minimum Energy States of Reversed-Field-Pinch Plasma
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概要
- 論文の詳細を見る
An energy principle is formulated for construction of toroidal equilibria inpartially relaxed minimum energy states. It is shown that additional globalconstraint yields an additional condition on the force-free current term of theMHD equilibrium equation. It is clarified that the partially relaxed state model(PRSM) for toroidal plasmas, such as the tokamak plasma and the reversed-field-pinch plasma (RFP plasma), represents the minimum-energy states withfinite /7-values under global invariants. Comparisons of numerical results by thePRSM for the RFP plasma with two typical experimental data indicate that RFPconfigurations close to the PRSM are realized in the two RFP experiments. Themost advanced partially relaxed state with finite /7-values is also discussed.
- 社団法人日本物理学会の論文
- 1984-10-15
著者
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島田 敏宏
東京大学大学院理学系研究科
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Shimada T
National Institute Of Advanced Industrial Science And Technology (aist)
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Ogawa K
Electrotechnical Laboratory
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HIRANO Yoichi
National Institute of Advanced Industrial Science and Technology (AIST)
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AMANO Tsuneo
Institute of Plasma Physics,Nagoya University
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Ogawa Kiyoshi
Electrotechnical Laboratory
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Hirano Y
Advanced Device Development Dept. Renesas Technology Corp.
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Amano T
National Inst. Fusion Sci. Nagoya
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Amano Tsuneo
Institute Of Plasma Physics Nagoya University
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Hirano Y
Energy Technology Research Institute National Institute Of Advanced Industrial Science And Technolog
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Goto Sei-ichi
Tlasma Ohsics Laborotory Faculty Of Engineering Osaka University
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KONDOH Yoshiomi
Department of Electronic Engineering, Gunma University
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Kondoh Y
Department Of Electronic Engineering Gunma University
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Kondoh Yoshiomi
Department Of Electrical Engineering College Of Technology Gunma University
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SHIMADA Toshio
Electrotechnical Laboratory
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Nagata Akiyoshi
Plasma Engineering Faculty Of Engineering Hiroshima University
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Maejima Yoshiki
Electrotechnical Laboratory
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HIRANO Yo-oichi
Electrotechnical Laboratory
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MAEJIMA Yoshiki
Energy Technology Division, Electrotechnical Laboratory
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Maejima Yoshiki
Energy Technology Division Electrotechnical Laboratory
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Maejima Y
Energy Technology Division Electrotechnical Laboratory
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Hirano Yoichi
Energy Technology Research Institute (ETRI), National Institute of Advanced Industrial Science and Technology (AIST)
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