Physical Mechanism of <I>E</I><SUB>ψ</SUB>-driven Current in Asymmetric Toroidal System
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概要
- 論文の詳細を見る
Physical mechanism of the E<SUB>ψ</SUB>-driven neoclassical current which exists only in asymmetric toroidal systems is clarified.It is found that symmetry-breaking, violating the total angular momentum conservation, changes the direction of flow and heat flux to be damped by the parallel viscosities. The change in the direction depends on the collisionality through the gemetric factor which reflects symmetry-breaking. As a result, in contrast to symmetric toroidal systems, the flow and heat flux due to the radial electric field E<SUB>ψ</SUB> can be damped according to the collisionality in asymmetric toroidal systems.If dominant species such as electrons and primary ions have different collisionalities, there remains a difference between the flows due to E<SUB>ψ</SUB>, hence a parallel current proportional directly to the radial electric field, i.e., the E<SUB>ψ</SUB>-driven current, is generated in asmmetric toroidal systems in spite of the charge neutrality condition.
- 社団法人 プラズマ・核融合学会の論文
著者
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中島 徳嘉
National Institute For Fusion Science
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岡本 正雄
National Institute For Fusion Science
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FUJIWARA Masami
National Institute for Fusion Science
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藤原 正巳
National Institute for Fusion Science
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OKAMOTO Masao
National Institute for Fusion Science
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Nakajima Noriyoshi
National Institute For Fusion Science
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