发散式气膨化z夹缩等离子体中的离子加速

K. Takasugi, Mineyuki Nishio
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摘要

只提供摘要形式。发散式气膨化z箍缩在轴向上是一个非均匀系统。不均匀度可以通过充气角度来控制。在发散式气胀z夹缩实验中观察到1mev左右的高能离子。由于在电流反转实验中也观察到离子加速,因此可以将加速归因于与电流方向无关的某种机制。结果表明,加速机理不是电磁感应,需要进一步了解其机理。本文通过实验研究了非均匀性与离子轴向加速度之间的关系。在安装发散式气体喷嘴的SHOTGUN-III型z-pinch装置上进行了实验。制备了三种发散型喷嘴(10度、20度和30度)。高速气阀充入5atm氩气。该器件配备了12 μF的电容组,可以正极充电,也可以负极充电。典型放电电流为150ka,充电电压为25kv。采用汤姆逊抛物线能量分析仪进行轴向离子分析。用轨道探测器(BaryotrakP)观察离子。在一系列实验中观察到单至三次电离的氩离子,最大能量约为1MeV。初步结果表明,在较小的气体角下可以观察到能量较高的离子。这一趋势支持了磁壁多次反射的离子加速模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ion acceleration in the divergent gas-puff Z-pinch plasma
Summary form only given. The divergent gas-puff z pinch is a non-uniform system in the axial direction. The degree of non-uniformity can be controlled by the angle of gas-puffing. High-energy ions around 1 MeV have been observed in the divergent gas-puff z-pinch experiment. As the ion acceleration has also been observed in the current reversal experiment, the acceleration has been attributed to some mechanism independent of the current direction. The result indicates that the acceleration mechanism is not the electromagnetic induction, and the further understanding of the mechanism is desired. Here the experiment was carried out to examine the relationship between the non-uniformity and the ion acceleration in the axial direction. The experiment was carried out on the SHOTGUN-III z-pinch device in which divergent gas nozzle was installed. Three divergent gas nozzles (10, 20 and 30 degrees) were prepared. The high-speed gas valve was filled with 5 atm argon gas. The device is equipped with a capacitor bank of 12 μF, which can be charged either positively or negatively. Typical discharge current is 150 kA at the charged voltage of 25 kV. A Thomson parabola energy analyzer was used for the ion analysis in the axial direction. Track detector (BaryotrakP) was used for observing the ions. Singly to triply ionized argon ions were observed in the series of experiment, and the maximum energy was about 1MeV. The preliminary result showed that ions with higher energy were observed at the smaller gas angle. The tendency supports the ion acceleration model of multiple reflections by the magnetic wall.
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