低温等离子体可以通过高电压获得。
But cold plasmas can be made using high electrical voltages.
这些等离子体沿着磁力线的方向流动喷发。
等离子体是物质存在的第四种状态。
对低温氢气等离子体的用途作了概述。
The application of low - temperature hydric - plasma is summarized.
等离子体物理也是非常美妙!
空间中等离子体是无碰撞的。
空间中等离子体是无碰撞的。
制作了精细图形,等离子体损伤较低。
Fine tiny patterns with low plasma damage were also fabricated.
等离子体技术越来越受到人们的重视。
介绍了低压等离子体技术及其涂层设备。
The low pressure plasma technology and coating equipment were introduced.
研制了一种新的大面积微波等离子体源。
A new large area microwave plasma source has been developed.
讨论了温度对等离子体尾波加速的影响。
We also discuss the influence of temperature on plasma wake field acceleration.
你在能量的全体性之上运用等离子体科技。
介绍了等离子体隐身技术的原理性试验。
This paper presents principle test on vanishing target by plasma technology.
等离子体隐身是隐身技术的一个新分支。
The plasma stealth technology is a new branch of the stealth technology.
这是与等离子体相同的。
那从手指到手指的空间,是你的等离子体。
简要介绍了等离子体技术和微细加工技术。
Plasma technology and micro process technology are presented simply.
进行了大气压等离子体流动控制初步实验。
Elementary atmosphere plasma flow control experiment is performed.
本文介绍微波等离子体刻蚀应用的实验结果。
In this paper, the result of etching application with microwave plasma will be introduced.
作为例子计算了一些等离子体横截面的形状。
Several cross sections of the plasma have been given as examples.
氧气或大气等离子体仅能往除汗渍的有机成分。
An oxygen or air plasma would only remove the organic component of sweat.
理论研究主要是如何建立合理的等离子体模型。
In theory, the paper introduced how to set up reasonable plasma models.
本文将对尘埃等离子体晶格波进行系统的研究。
Therefore the electrostatic wave study has become a very important diagnostic method for dusty plasmas.
等离子体隐身技术是新概念、新原理的隐身技术。
本文讨论交流等离子体平板显示器件的寿命问题。
在反应器的设计中,确保了反应在等离子体区进行。
The design of reactor assures that the reaction is in plasma zone.
你需要使用氧气作为处理气体来产生氧气等离子体。
文章介绍了空间等离子体源与测试系统的设计方法。
The design method for space plasma source and measurement system is introduced in this paper.
文章介绍了空间等离子体源与测试系统的设计方法。
The design method for space plasma source and measurement system is introduced in this paper.
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