Sun Ho Kim, Jonggab Jo, J. Wang, Soobin Lim, Seongcheol Kim, Y. S. Hwang
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引用次数: 0
摘要
托卡马克核聚变反应堆的稳态运行需要高效的中心或离轴电流驱动。在反应堆级托卡马克等离子体的高密度和高温条件下,频率范围高于下混合共振频率两倍的快波分支,即所谓的 LHFW,可以成为一种高效的电流驱动方案。这是因为与其他频率范围的快波分支相比,它具有更高的平行波电场,可实现高效的朗道阻尼,而且与相同频率范围的慢波相比,它能更深入地穿透高密度等离子体。为了证实其可行性,我们与韩国航空航天研究所、韩国国家科学院、韩国水利大学和韩国航空航天研究所合作,在 VEST 开展了一项实验研究。结果表明,等离子体电流可以由低频慢波产生的快速电子驱动。报告的详细内容包括理论背景和射频系统以及实验结果。
Current Drive by using Lower Hybrid Fast Wave in VEST
An efficient central or off-axis current drive is necessary for the steady-state operation of tokamak fusion reactors. The fast wave branch in the frequency range above two times the lower hybrid resonance frequency at high density, the so-called LHFW, could be such an efficient current drive scheme in high density and high temperature of reactor-grade tokamak plasmas. This is because it has a higher parallel wave electric field for efficient Landau damping, compared to the fast wave branches in other frequency ranges, and it can more deeply penetrate high density plasmas than the slow wave in the same frequency range. An experimental study has been carried out to confirm the feasibility, in collaboration with KAERI, SNU, KWU, and KAPRA, in VEST. The results show that plasma current can be driven by the fast electrons generated by the LHFW. The details are reported including the theoretical background and RF system as well as the experiment results.
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