Filamentary velocity scaling validation and spin dynamics in the DIII-D tokamak

S. C. Molesworth, J. Boedo, C. Tsui, R. Perillo, D. Rudakov
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Abstract

Measured filament velocities in the DIII-D tokamak are compared against theoretical scalings, finding that the latter often represents an upper limit on experimental velocity distributions with most filaments possessing lower velocity. Filament spin from internal E × B drift is experimentally demonstrated to alter filament radial velocity. A critical spin velocity, where filament radial velocity peaks, is observed and corresponds to approximately 5 km/s. This transition is corroborated using a less direct measure of filament spin in the form of a temperature ratio. These techniques are combined to find that the critical spin velocity closely aligns with transport times along and across filaments becoming comparable. The normalized filament size distribution is consistent with the most stable size as dictated by Kelvin–Helmholtz and curvature-driven instabilities. Overall, the findings suggest filament stability and spin alter filamentary transport that may threaten the integrity of first walls in fusion devices.
DIII-D 托卡马克中的丝状速度缩放验证和自旋动力学
将在 DIII-D 托卡马克中测量到的灯丝速度与理论标度进行了比较,发现后者往往代表了实验速度分布的上限,大多数灯丝的速度较低。实验证明,内部 E × B 漂移产生的灯丝自旋改变了灯丝的径向速度。观测到了一个临界自旋速度,在这个速度下灯丝的径向速度达到峰值,大约相当于 5 公里/秒。利用温度比的形式对灯丝自旋进行了不太直接的测量,从而证实了这一转变。将这些技术结合起来可以发现,临界自旋速度与沿灯丝和跨灯丝的传输时间密切相关。归一化细丝尺寸分布与开尔文-赫尔姆霍兹不稳定性和曲率驱动不稳定性决定的最稳定尺寸一致。总之,研究结果表明,丝状稳定性和自旋改变了丝状传输,这可能会威胁到聚变装置第一壁的完整性。
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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