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1)  Z-pinch implosion
Z箍缩内爆
1.
Z-pinch implosion was defined as a process that high current pass plasma through along the axes direction (Z direction) of pulse power facilities, producing powerful annular magnetic field, original plasma was compressed to axes by the work of Lorentz force, forming high temperature and high density plasma.
Z箍缩内爆是指大电流沿着负载轴线方向(Z方向)通过等离子体,产生强大环向磁场,初始低温等离子体在洛仑兹力度作用下向轴心压缩内爆,形成高温、高密度等离子体的过程。
2)  Fast Z-pinch implosion
快Z箍缩内爆
3)  Z-pinch
Z箍缩
1.
An approximate prediction of the radiation spectrum from Z-pinch plasmas;
Z箍缩等离子体X射线辐射能谱的一种估算
2.
Preliminary experiments of multi-wire Z-pinch on plasma opening switch;
等离子体断路开关装置上的多丝Z箍缩初步实验
3.
Analysis of the prepulse in a fast z-pinch device;
快速z箍缩装置的预脉冲分析
4)  Z pinch
Z箍缩
1.
The gas puff is one of the main loads used in Z pinch research.
喷气负载是高功率Z箍缩的主要负载之一。
2.
It’s indicated that technology of high pulsed power Z pinch has vast application prospects in the realization of ultraintensive pulsed x ray simulator and ICF driver as a chief technological way Also are described the progress and the current status of simulators for pulsed x ray in China, and proposals for the future development of Z pinch technology.
文章简要介绍了利用强流脉冲电子束加速器模拟脉冲X射线的发展概况及国内脉冲X射线模拟源的发展现状 ,指出作为主要技术途径 ,高功率Z箍缩技术在实现超强脉冲X射线源和ICF驱动源上都有很重要的发展应用前景 ,并提出了今后工作设
3.
As the fundament of wire array Z pinch experiment, the design of the load is very important.
 作为丝阵Z箍缩实验的基础,丝阵负载的设计具有重要意义。
5)  Fast Z-pinch
快Z箍缩
6)  Z-pinch
Z-箍缩
1.
Scintillant Detection System for Z-pinch X-ray Radiation Power;
Z-箍缩X射线辐射功率闪烁探测系统
2.
Experimental studies of Z-pinches of mixed wire array with aluminum and tungsten;
铝-钨丝混编阵的Z-箍缩实验研究
3.
Comparision of three methods for abel inversion based on two profiles of z-pinch plasma: the Ganssian profile and the double-peak profile.
本文基于z-箍缩条件下的两种等离子体密度分布形式:高斯分布和双峰分布,详细比较了逆阿贝尔变换的三种方法,发现傅里叶汉克尔变换方法对噪声不敏感,对两种等离子体分布形式均有同等好的表现,并好于数据经过降噪处理后的其它两种变换方法,同时该方法程序实现更为简单。
补充资料:[3-(aminosulfonyl)-4-chloro-N-(2.3-dihydro-2-methyl-1H-indol-1-yl)benzamide]
分子式:C16H16ClN3O3S
分子量:365.5
CAS号:26807-65-8

性质:暂无

制备方法:暂无

用途:用于轻、中度原发性高血压。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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