Inductive sustainment of oblate field-reversed configurations with the assistance of magnetic diffusion, shaping, and finite-Larmor radius stabilization

Gerhardt SP; Belova EV; Yamada M; Ji H; Inomoto M; Jacobson CM; Maqueda R; McGeehan B; Ren Y

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Inductive sustainment of oblate field-reversed configurations with the assistance of magnetic diffusion, shaping, and finite-Larmor radius stabilization

机译：借助磁场扩散，整形和有限Larmor半径稳定化，对扁圆反向磁场的感应维持

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Oblate field-reversed configurations (FRCs) have been sustained for > 300 mu s, or > 15 magnetic diffusion times, through the use of an inductive solenoid. These argon FRCs can have their poloidal flux sustained or increased, depending on the timing and strength of the induction. An inward pinch is observed during sustainment, leading to a peaking of the pressure profile and maintenance of the FRC equilibrium. The good stability observed in argon (and krypton) does not transfer to lighter gases, which develop terminal co-interchange instabilities. The stability in argon and krypton is attributed to a combination of external field shaping, magnetic diffusion, and finite-Larmor radius effects. (c) 2008 American Institute of Physics.

机译：通过使用感应螺线管，扁圆形的反向磁场配置（FRC）维持了> 300μs或> 15的磁扩散时间。根据诱导的时间和强度，这些氩FRC可以保持或增加其倍数通量。在维持过程中观察到向内捏，导致压力曲线达到峰值并维持FRC平衡。在氩气（和k气）中观察到的良好稳定性不会转移到较轻的气体中，而较轻的气体会产生最终的共交换不稳定性。氩气和k气的稳定性归因于外部磁场整形，磁扩散和有限洛尔半径效应的结合。（c）2008年美国物理研究所。

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《Physics of plasmas》 |2008年第2期|共16页
作者
Gerhardt SP; Belova EV; Yamada M; Ji H; Inomoto M; Jacobson CM; Maqueda R; McGeehan B; Ren Y;
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正文语种 eng
中图分类等离子体物理学;
关键词
NEUTRAL BEAM INJECTION; CURRENT DRIVE; ROTATIONAL INSTABILITY; STABILITY PROPERTIES; GLOBAL STABILITY; COMPACT TOROIDS; THETA PINCHES; TILT MODE; PLASMA; CONFINEMENT;

机译：中性束注入;电流驱动;旋转不稳定性;稳定性;全局稳定性;紧凑的接触角;θ夹点;倾斜模式;等离子;约束;

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1. Inductive sustainment of oblate field-reversed configurations with the assistance of magnetic diffusion, shaping, and finite-Larmor radius stabilization [J] . Gerhardt SP, Belova EV, Yamada M, Physics of plasmas . 2008,第2期

机译：借助磁场扩散，整形和有限Larmor半径稳定化，对扁圆反向磁场的感应维持
2. Equilibrium and stability studies of oblate field-reversed configurations in the Magnetic Reconnection Experiment [J] . Gerhardt SP, Belova E, Inomoto M, Physics of plasmas . 2006,第11期

机译：磁重联实验中扁圆磁场反转构型的平衡和稳定性研究
3. INFLUENCE OF BIAS MAGNETIC FIELD CONFIGURATION ON EQUILIBRIUM OF FIELD-REVERSED CONFIGURATION PLASMA SUSTAINED BY ROTATING MAGNETIC FIELD [J] . Kiyoyuki Yambe, Michiaki Inomoto, Shigefumi Okada Fusion Science and Technology . 2013,第1T期

机译：偏置磁场配置对旋转磁场维持的场反转配置等离子体平衡的影响
4. Circuit Modeling of Rotating Magnetic Field Field-reversed Configuration Thrusters [C] . Joshua M. Woods, Benjamin A. Jorns, Alec D. Gallimore AIAA/SAE/ASEE joint propulsion conference;AIAA propulsion and energy forum . 2018

机译：旋转磁场反向配置推进器的电路建模
5. Development of a Thomson scattering system and its use in a rotating magnetic field driven field-reversed configurations plasma. [D] . Lee, Kiyong. 2011

机译：汤姆森散射系统的开发及其在旋转磁场驱动的场反转配置等离子体中的应用。
6. Investigating the prevalence of complex fiber configurations in white matter tissue with diffusion magnetic resonance imaging [O] . Ben Jeurissen, Alexander Leemans, Jacques‐Donald Tournier, 2013

机译：用扩散磁共振成像研究白质组织中复杂纤维构型的患病率
7. Numerical Study of Global Stability of Oblate Field-Reversed Configurations [O] . Belova, E.V., Jardin, S.C., Ji, H., 2000

机译：平场场反转结构全局稳定性的数值研究
8. Inductive Sustainment of Oblate FRCs with the Assistance of Magnetic Diffusion, Shaping and Finite-Lamor Radius Stabilization [R] . Gerhardt, S., Belova, E. V., Yamada, M., 2008

机译：具有磁扩散，成形和有限劳模半径稳定性的扁平FRC的感应维持

Inductive sustainment of oblate field-reversed configurations with the assistance of magnetic diffusion, shaping, and finite-Larmor radius stabilization

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