Radial ion diffusion induced by cyclotron resonance heating at the thermal barrier region in the Phaedrus-B tandem mirror

IEEE 1989 International Conference on Plasma Science Pub Date : 1989-05-22 DOI:10.1109/PLASMA.1989.166172

Y. Wen, D. Brouchous, M. Ichimura, R. Breun, N. Hershkowitz, P. Probert, R. Majeski, T. Intrator, D. Roberts, D. Keil

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Abstract

Experiments with and without ion cyclotron resonance (1.275 MHz, fundamental ion cyclotron frequency of hydrogen plasma) as the thermal-barrier region have been carried out by varying the thermal-barrier magnetic field strength. Radial density profiles, potential profiles, and currents have been measured, as well as the fueling at the thermal-barrier region. The density at the plasma edge increased and the potential at the plasma edge decreased as the B field was decreased to bring the resonance into the thermal-barrier cell in both a balanced and imbalanced gas-puffing case. The data indicated that a possible mechanism is that ions can escape from the confinement region along the open resonance surface (the same as the mod-B surfaces) because the turning point of the trapped ions has a tendency to center on mod-B surfaces. An increasing potential observed in the present experiments in the edge region of the plasma with increasing B field may be related to the higher degree of fluctuation of radial current to the collector.<>

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费德鲁斯- b串联反射镜热障区回旋共振加热诱导的径向离子扩散

通过改变热障磁场强度，进行了以离子回旋共振(氢等离子体基本离子回旋频率1.275 MHz)作为热障区的实验。测量了径向密度分布、电位分布和电流，以及热障区域的燃料。在平衡和不平衡充气情况下，随着B场的减小使共振进入热障池，等离子体边缘的密度增大，等离子体边缘的电位减小。数据表明，可能的机制是离子可以沿着开放共振表面(与模b表面相同)逃离约束区，因为被捕获离子的转折点倾向于以模b表面为中心。本实验观察到等离子体边缘区电位随B场的增大而增大，这可能与径向电流对集热器的波动程度增大有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE 1989 International Conference on Plasma Science

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