Experimental Study of Two-Fluid Effect during Magnetic Reconnection in the UTST Merging Experiment
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概要
- 論文の詳細を見る
Radial profile of floating potential inside the current sheet was measured for the purpose of investigating the two-fluid (Hall) effect during magnetic reconnection in the UTST merging experiment. During magnetic reconnection, the floating potential drop was formed spontaneously inside the current sheet, forming a steep electric potential gradient on its both downstream areas. Magnetic probe array measurement indicates that this potential drop appears spontaneously when the reconnection rate rapidly increase due to change in current sheet structure. The IDS probe measurement observed outflow almost equal to poloidal Alfvén speed in radial direction from the X-point, where steep gradient of floating potential is formed. This fact suggests that ion acceleration/heating is caused by the steep potential gradient formed in the downstream by magnetized electrons.
- 社団法人 プラズマ・核融合学会の論文
著者
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Inomoto Michiaki
The University Of Tokyo
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Ono Yasushi
The University Of Tokyo
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Itagaki Hirotomo
The University of Tokyo
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Cao Qinghong
The University of Tokyo
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Yamasaki Kotaro
The University of Tokyo
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Takemura Koichiro
The University of Tokyo
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Watanabe Takenori
The University of Tokyo
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YAMADA Takuma
Faculty of Arts and Science, Kyushu University
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KAMIO Shuji
National Institute for Fusion Science
関連論文
- Direct Measurements of High Harmonic Fast Wave Profile in the UTST Spherical Tokamak Plasma
- Study of Particle Acceleration during Reconnection via TS-4 Particle Trajectory Simulations
- Study of Particle Acceleration during Reconnection via TS-4 Particle Trajectory Simulations
- Electron Acceleration by Magnetic Reconnection During Spherical Tokamak Merging Experiment
- Identification of Quasi-Periodic Nonlinear Waveforms in Turbulent Plasmas
- Electron Acceleration by Magnetic Reconnection During Spherical Tokamak Merging Experiment
- Plasmoid-Induced Pull Reconnection Experiments in University of Tokyo Spherical Tokamak
- Experimental Study of Two-Fluid Effect during Magnetic Reconnection in the UTST Merging Experiment