微波离子源,microwave ion source英语短句,例句大全

微波离子源,microwave ion source
1)microwave ion source微波离子源
1.45GHz microwave ion source s extraction system at the Institute of Heavy Ion Physics, Peking University.45GHz袖珍永磁微波离子源引出系统的一项改进,即在距该离子源永磁环9cm处加一个长为10cm的永磁透镜。
2.Microwave coupling efficiency is an important parameter for microwave ion source, and has close relation with magnetic field strength and it s distribution.微波耦合效率 (Pi-Pr) /Pi 是微波离子源的重要参数 ,它与磁场强度和分布关系密切。
3.And according to the demand of microwave ion source of intense neutron tube on magnetic field mode, we provided the design result and experiment data of multicusp field, double-magnet-ring field, field with transmiting magnet circuit, and makes .根据强流中子管的特殊要求和微波离子源微波吸收及传输原理 ,设计出等离子腔结构 ,其对微波可无阻传输 ,对高电压有隔离作用。
2)Microwave plasma source微波等离子体源
1.Modeling of planar spiral inductively-coupled microwave plasma source;平面螺旋电感耦合微波等离子体源的建模分析

英文短句/例句

1.Low power microwave plasma source based on microstrip split-ring resonator fed directly直接馈电微带缝环谐振器实现微波等离子体源
2.Study on Low-Power Microwave Plasma Source Based on Microstrip Split-Ring Resonator基于微带环缝谐振器的小功率微波等离子体源
3.Research of Low Power Inductively-Coupled Microwave Plasma Source Based on Planar Microstrip;小功率平面微带电感耦合微波等离子体源的研究
4.Study of Microstrip Split-ring Resonator Used in Low-power Microwave Plasma Source;用于小功率微波等离子体源的微带环缝谐振器的研究
5.Research of Planar Microstrip Spiral Inductively-Coupled Low-Power Microwave Plasma Source;小功率平面微带螺旋电感耦合微波等离子体源的研究
6.Study on Low Power Inductively-Coupled Microwave Plasma Source Based on Planar Spiral Microstrip小功率平面螺旋电感耦合微波等离子体源的研究
7.Study on Integration and Packaging of Monolithic Microwave Micro-plasma Source单片微波微等离子体源的集成与封装研究
8.Numerical Simulation on Microwave Electron Cyclotron Resonance Plasma;微波电子回旋共振等离子体数值模拟
9.ion plasma wave and ionic plasma oscillation离子等离子体波和离子等离子体振荡
10.capacitively coupled microwave plasma torch电容耦合微波等离子体焰炬
11.inductively coupled microwave plasma torch电感耦合微波等离子体焰炬
12.microwave plasma emission spectroscopic detector微波等离子体发射光谱检测器
13.The Research of Making C_2 Hydrocarbon by Coupling Methane Using Microwave Plasma;微波等离子体偶联甲烷制C2烃的研究
14.Studies on Treatment of Environmental Pollutants with Microwave Plasma;微波等离子体处理环境污染物的研究
15.Investigation on the Microwave Reflection Characteristics of Large Area Plasma Sheet大面积等离子体片微波反射特性研究
16.Simulation of microwave plasma thruster flow微波等离子体推力器流动模拟(英文)
17.Experimental Results of the Impact of an Ion Thruster Plasma on Microwave Propagation离子推进等离子体与微波传播碰撞的实验结果
18.It may be sure that the technology of ion source will be put to a new level by the development of the microwave ECR plasma.可以确信,微波电子回旋共振等离子体的发展,将把离子源技术提高到一个新的水平。

相关短句/例句

Microwave plasma source微波等离子体源
1.Modeling of planar spiral inductively-coupled microwave plasma source;平面螺旋电感耦合微波等离子体源的建模分析
3)microwave micro-plasma source微波微等离子体源
1.The microwave micro-plasma source is of important application value in the industrial field.微波微等离子体源在工业生产中有重要应用,可以产生可控的小尺寸放电,在生物MEMS灭菌消毒、小规模材料处理、微化学分析系统、微推进等领域中有广泛前景。
4)MW-ECR Plasma Source微波-ECR等离子体源
5)low power microwave plasma source小功率微波等离子体源
1.The impedance matching of low power microwave plasma source was analyzed based on odd mode equivalent circuit and the interrelation between S parameter and microwave plasma impedance,and the discharges in various gas pressure were studied.45 GHz小功率微波等离子体源,根据微带环缝谐振器的奇模等效电路,通过S参数与微波等离子体阻抗之间的关系,研究小功率微波等离子体源的阻抗匹配及其在不同气体条件下的放电规律。
6)microwave plasma微波等离子
1.Using the mixture ambience of high pure hydrogen and high pure nitrogen as precursor,VO 2-x N y thin films with good thermal induced phase transition property were synthesized at low temperature by microwave plasma enhanced route using V 2O 5 as molecular precursors through coating film in glass slice.选用V2O5为前驱物,通过在玻璃片上镀膜,利用高纯氢和高纯氮作为气源,采用微波等离子体增强法,在低温条件下合成了具有优良热致相变特性的氮杂二氧化钒(VO2-xNy)薄膜。
2.Both conventional microwave and microwave plasma sintering technology have been involved to sinter ZnO based varistor.采用常规微波和微波等离子对比烧结ZnO/Bi2O3系压敏电阻发现:两者均可快速成瓷,烧结时间由常规的20 h减少到45 min;烧结后,ZnO晶粒细小(约1μm)均匀,相比而言,等离子更有利于压敏电阻烧结。
3.The step sintering of microwave heating and microwave plasma heating (SSMP)was proposed in this paper.提出微波加热和微波等离子加热分步烧结方法（SSMP）。