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.
考虑了低混杂波电流驱动时非线性效应的波谱展宽、附加电导率以及电子和离子的温度变化。
The nonlinear broadening of spectrum, the RF-induced-tail producing additional conductivity, and time evolution of average electron and ion temperatures are taken into account.
在一定条件下低混杂波电流驱动可以改善等离子体粒子约束。
The impurity transport is anomalous. the particle confinement could be improved in a certain condition during the low hybrid current drive.
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