Nonlinear Dynamics of Plasma Instabilities in a Collisionless Current Layer
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概要
- 論文の詳細を見る
Nonlinear dynamics of plasma instabilities in a current layer and their influence on collisionless reconnection are investigated by means of a three-dimensional electromagnetic particle simulation. For no external driving source, collisionless reconnection is triggered by the drift kink instability, which is excited at a neutral sheet after nonlinear deformation of a current sheet by the lower hybrid drift instability. When an external driving source exists, collisionless reconnection is triggered by convective electric field which penetrates into the current layer through a particle kinetic effect.
- 理論物理学刊行会の論文
- 2000-04-28
著者
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SATO Tetsuya
Theory and Computer Simulation Center, National Institute for Fusion Science
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Horiuchi Ritoku
Theory And Computer Simulation Center National Institute For Fusion Science
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Sato Tetsuya
Theory And Computer Simulation Center National Institute For Fusion Science
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