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 results of impurity VUV radiation observation on the HL 1m device are given in this paper.
本文叙述了用真空紫外光谱方法观测HL - 1装置常规、器壁碳化和抽气孔栏三种放电条件下等离子体杂质的变化以及某些杂质的特性。
Some properties of the impurity in the HL-1 tokamak are studied by the VUV spectroscopic method under different discharge conditions: regular, with wall carbonization and with a pumping limiter.
研究了甲基异丁基酮(MIBK)萃取分离金,用电感耦合等离子体原子发射光谱法(ICP AES)测定镀金液中杂质元素的新方法。
After extraction separation of gold by MIBK, lead, copper, iron, nickel in gold plating bath were determined by inductively coupled plasma-atomic emission spectrometry (ICP-AES).
对电感耦合等离子体原子发射光谱法(ICP AES)测定金属硅中铁杂质含量的不确定度进行了合成和评估。
The combination and estimation of the uncertainty in the determination of Fe in metallic silicon using Inductively Coupled Plasmas Atomic Emissive Spectrometry(ICP-AES) is described.
这些结果对估计面对等离子体的部件寿命和分析聚变堆堆芯等离子体中的杂质水平估计是很有用的。
These data might be useful to estimate the lifetime of plasma facing components and to analyze the impurity level in core plasma of fusion reactors.
这些数据对估计对等离子体部件的寿命和堆芯等离子体中的杂质水平是有意义的。
These data can be used to estimate the lifetime of plasma facing components and analyze the impurity level in core plasma of fusion reactors.
指出了未来聚变堆对杂质控制,排气和等离子体-表面相互作用的要求。
Requirements for impurity control, exhaust and plasma-surface interactions in future reactors are indicated.
这些实验结果分属于:平衡稳定等离子体的获得,等离子体形成阶段的特性,杂质和等离子体壁相互作用等几个主要方面。
They are related to the following aspects of tokamak plasma: conditions for stable tokamak discharge, stages of toroidal discharge formation, impurity behaviour and plasma-wall interactions, etc.
分子束注入减小了杂质辐射,有效地提高了电子密度,改善了等离子体的约束性能。
The results of the molecular beam injection show that the impurity have been decreased, the electron density have been increases, and the plasma confinement property was improved.
本文讨论了一种利用残留在激光器中杂质氢原子的时间分辨光谱,来确定脉冲激光等离子体电子温度和电子密度的方法。
A method to determine the electron temperature and density from the time resolved spectra of hydrogen atoms left in a pulsed laser plasma is described.
本文讨论了一种利用残留在激光器中杂质氢原子的时间分辨光谱,来确定脉冲激光等离子体电子温度和电子密度的方法。
A method to determine the electron temperature and density from the time resolved spectra of hydrogen atoms left in a pulsed laser plasma is described.
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