Numerical modeling of electron confinement in a multicusp magnetic trap

V. Klenov
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引用次数: 0

Abstract

A charge-exchange target for neutralizing a negative ion beam with energies up to 10 MeV and higher requires the development of a highly efficient plasma trap which allows plasma to form and be confined with a linear density up to 1017 cm−2 and higher. The magnetic systems in which the condition of magnetohydrodynamic stability of the plasma is satisfied are of most interest when pursuing a high-density plasma. The electron confinement efficiency in a magnetic trap with a quasi-spherically symmetric multicusp magnetic field geometry with a "minimum B" at the center of the system, in which all cusps are point-type cusps is studied using numerical methods. The results of numerical experiments are compared with a collisionless model of particle motion in a trap.
多轴磁阱中电子约束的数值模拟
中和能量高达10 MeV或更高的负离子束的电荷交换目标需要开发一种高效的等离子体陷阱,该陷阱允许等离子体形成并被限制在高达1017 cm - 2或更高的线性密度。在追求高密度等离子体时,满足等离子体磁流体动力学稳定性条件的磁系统是最感兴趣的。用数值方法研究了具有准球对称多尖点磁场几何形状的磁阱中所有尖点都为点型尖点的电子约束效率。数值实验结果与阱中粒子运动的无碰撞模型进行了比较。
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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