The impurity radiation can be interrupted by modulated IBW.
杂质辐射被离子玻恩斯坦波调制阻止。
Measurements of impurity radiation in the HL 1M tokamak are given.
给出了HL-1M装置放电实验中杂质线辐射的测量结果。
The shift of impurity radiation peaking relative to the injection pulse is caused by the molecular agglomeration.
对应于分子束注入脉冲,分子束的“团簇”效应引起了杂质辐射峰化时间的错位。
This paper, results of VUV impurity radiation measured in the boronization experiment on the HL-1M Tokamak are given.
文中叙述了HL - 1m托卡马克硼化真空紫外光谱区杂质辐射的观测结果。
The plasma pres sure drop factor on the divertorfpis estimated with the two point SOL transportmodeland the impurity radiation model.
偏滤器上等离子体压降系数用SOL的两点输运模型和辐射模型估算。
During the impurity radiation, the density perturbation driven by density gradient couples with the temperature one and then affects the electrostatic potential one.
电子密度梯度直接影响密度涨落,并通过杂质辐射与温度涨落相互耦合,进而影响静电势涨落。
The combined effects of the electron thermal conductivity and the impurity radiation on ohmic heating of tokamak plasmas are studied by using a set of simplified energy balance equations.
本文利用欧姆加热条件下简化的能量平衡方程研究了热传导与杂质辐射的综合效应。
The possibility of the stimulated radiation at the low atomic density is demonstrated, and the possibility of impurity examination by means of stimulated radiation signals is estimated.
证实了在低原子浓度下探测受激辐射的可能性,并估计了用受激辐射信号检测杂质的可能性。
The results of impurity VUV radiation observation on the HL 1m device are given in this paper.
本文介绍了HL -1m装置等离子体杂质真空紫外辐射观测的初步结果。
The third sensor USES fluorescence radiation generated in an impurity-doped glass or plastic slab.
第三种荧光液位传感器利用掺杂玻璃或塑料中产生的荧光辐射来探测液位。
Puffing gas can reduce the plasma temperature in the scrape off layer (SOL). Injected impurity can increase the radiation power in SOL. Both of them make the heat load on the plate target smaller.
喷气能降低删削层(SOL)处等离子体温度,注入的杂质增加了SOL处的辐射功率,使靶板的负载降低。
Puffing gas can reduce the plasma temperature in the scrape off layer (SOL). Injected impurity can increase the radiation power in SOL. Both of them make the heat load on the plate target smaller.
喷气能降低删削层(SOL)处等离子体温度,注入的杂质增加了SOL处的辐射功率,使靶板的负载降低。
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