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通过具有高空间谐波的旋转磁场维持的场反向配置。

Field-reversed configuration maintained by rotating magnetic field with high spatial harmonics.

作者信息

Inomoto Michiaki, Kitano Katsuhisa, Okada Shigefumi

机构信息

Center for Atomic and Molecular Technologies, Graduate School of Engineering, Osaka University, Osaka 565-0871, Japan.

出版信息

Phys Rev Lett. 2007 Oct 26;99(17):175003. doi: 10.1103/PhysRevLett.99.175003.

DOI:10.1103/PhysRevLett.99.175003
PMID:17995341
Abstract

Field-reversed configurations (FRCs) driven by rotating magnetic fields (RMFs) with spatial high harmonics have been studied in the metal flux conserver of the FRC injection experiment. The experimental results show that the fundamental RMF component is observed to penetrate the plasma column, while the high harmonics are screened at the plasma edge due to their slower or reversed rotation. This selective penetration of the RMF provides good compatibility of radial and azimuthal force balances; significant radial inward force <joverBover> mostly from the high-harmonic components, and sufficient azimuthal torque solely provided by the fundamental component.

摘要

在场反向配置(FRC)注入实验的金属通量保持器中,对由具有空间高谐波的旋转磁场(RMF)驱动的场反向配置(FRC)进行了研究。实验结果表明,观察到RMF的基波分量穿透等离子体柱,而高谐波由于其旋转较慢或反向旋转而在等离子体边缘被屏蔽。RMF的这种选择性穿透提供了径向和方位力平衡的良好兼容性;显著的径向向内力<j上标B上标>主要来自高谐波分量,而足够的方位转矩仅由基波分量提供。

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