稠密z-pinch中瑞利-泰勒不稳定性的自旋控制

Proceedings of 1994 IEEE 21st International Conference on Plasma Sciences (ICOPS) Pub Date : 1994-06-06 DOI:10.1109/PLASMA.1994.588916

G. Peterson, N. Rostoker

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引用次数: 0

摘要

内爆的、环形的z-捏缩总是受到瑞利-泰勒不稳定性的影响，其增长是由初始扰动和线性增长率{gamma} = {radical}gk决定的，其中g是加速度，k是波数。通过赋予等离子体自旋，可以大大减少初始扰动。此外，向心加速度将降低内爆结束时的增长率。这个想法可以使需要均匀压缩的夹紧方案受益，例如x射线激光和基于阶段夹紧和捕获磁场夹紧的聚变项目。摘要对自旋的概念进行了总结，并对具有自旋传递和捕获磁场的缩点进行了零维内爆分析。

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Spin control of The rayleigh-taylor Instability In a dense z-pinch

Imploded, annular z-pinches are always subject to the Rayleigh-Taylor instability, the growth of which is determined by the initial perturbations and the linear growth rate {gamma} = {radical}gk where g is the acceleration and k is the wave number. By imparting a spin to the plasma, the initial perturbations can be greatly reduced. Furthermore, the centripetal acceleration will reduce the growth rates at the end of the implosion. This idea could benefit pinch schemes that require uniform compressions, such as x-ray laser and fusion programs that are based on staged pinches and pinches with trapped magnetic fields. A summary of the spin concept is presented along with a zero-dimension implosion analysis for pinches with imparted spins and trapped magnetic fields.

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Proceedings of 1994 IEEE 21st International Conference on Plasma Sciences (ICOPS)

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