在枪驱动的球马克中抑制磁流体动力学波动从而改善约束。

Suppression of MHD fluctuations leading to improved confinement in a gun-driven spheromak.

作者信息

McLean H S, Woodruff S, Hooper E B, Bulmer R H, Hill D N, Holcomb C, Moller J, Stallard B W, Wood R D, Wang Z

机构信息

Lawrence Livermore National Laboratory, Livermore, California 94550.

出版信息

Phys Rev Lett. 2002 Mar 25;88(12):125004. doi: 10.1103/PhysRevLett.88.125004. Epub 2002 Mar 8.

DOI:10.1103/PhysRevLett.88.125004

Abstract

Magnetic fluctuations have been reduced to approximately 1% during discharges on the Sustained Spheromak Physics Experiment by shaping the spatial distribution of the bias magnetic flux in the device. In the resulting quiescent regime, the safety factor profile is nearly flat in the plasma and the dominant ideal and resistive MHD modes are greatly reduced. During this period, the temperature profile is peaked at the magnetic axis and maps onto magnetic flux contours. Energy confinement time is improved over previous reports in a driven spheromak.

摘要

通过对装置中偏置磁通量的空间分布进行整形，在持续球形马克物理实验的放电过程中，磁涨落已降低至约1%。在由此产生的静态状态下，等离子体中的安全因子分布几乎是平坦的，主要的理想和电阻性磁流体动力学模式大大减少。在此期间，温度分布在磁轴处达到峰值，并映射到磁通量轮廓上。与之前关于驱动球形马克的报告相比，能量约束时间有所改善。

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