这些优异的壁条件导致了多发弹丸注入、低混杂波电流驱动(LHCD)和长脉冲放电等物理实验的重大进展。
The excellent wall conditions lead to great progresses in the experiments such as the multi-shoot pellet injection, LHCD and long pulse discharges.
本文研究了由于欧姆电场与驱动电流的低杂波场相互作用造成的影响等离子体电导的两个物理机制。
By considering the interaction between the Ohmic field and the lower-hybrid current driven (LHCD) field, we find two mechanisms affecting the plasma conductivity.
用低杂波的可近性条件、参量不稳定性条件和功率耦合谱分析了低杂波电流驱动(LHCD)。
The conditions of wave accessibility and parameter decay instability are used to analyse the density limit in LHCD.
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