气体放电等离子体

  • 网络gas-discharge plasma
气体放电等离子体气体放电等离子体
  1. 气体放电等离子体的耗散结构和密度涨落

    Dissipative Structures and Density Fluctuation in Gas-Discharge Plasma

  2. 气体放电等离子体特性测量I-V曲线不对称性的研究

    Investigations on I-V curve asymmetry of the plasma in gas discharge

  3. 激光诱导荧光方法对SiH4N2混合气体放电等离子体的研究

    The study of SiH_4 / N_2 gas discharge plasma with LIF

  4. 气体放电等离子体中的三稳现象及其唯象理论

    Tristable phenomena in gas discharged plasma and related phenomenological theory

  5. 高频气体放电等离子体处理对铁电体材料改性的影响

    RF gas discharge plasma processing influence modification of the ferroelectric

  6. 气体放电等离子体参量的霍尔效应诊断

    Hall effect diagnostics of the gas discharge plasma parameter

  7. 多普勒效应测量气体放电等离子体温度

    Doppler effect measures temperature of gas discharge plasma

  8. 混合气体放电等离子体电子温度的理论计算

    The Theory and Calculation of Electron Temperature in the Plasma of a Mixture Gas Discharge

  9. 气体放电等离子体中多重随机共振实验及数值研究

    Stochastic multi-resonance in a gas discharge plasma

  10. 在介质阻挡气体放电等离子体条件下,研究阻挡介质特性对NO脱除的影响规律。

    The impact of dielectric characteristics on NO removal is studied under the presence of dielectric barrier discharge plasma .

  11. 本论文研究目标是采用气体放电等离子体和化学的方法,开发一种流光放电等离子体氨法烟气脱硫的新工艺。

    This research aims at developing a novel streamer plasma flue gas desulfurization technological process by use of a gas discharge plasma and chemical method .

  12. 用H□103微波谐振腔进行气体放电产生等离子体。

    Plasma is generated with discharge of microwave resonant cavity .

  13. 气体激光器放电等离子体管的新设计

    A new design of discharge plasma tube in gas lasers

  14. 静电离子探针在气体放电磁化等离子体参数测量中的应用

    Application of Ion Probe in a Magnetized Discharge Plasma

  15. 气体放电产生等离子体已经广泛应用于环境污染治理、材料改性、微电子工业表面沉积与刻蚀、等离子体显示屏等重要工业领域。

    Gas discharge plasma has been widely applied to some important industry field as environment pollution improving , materials modification , microelectronics industry , deposition and etching , plasma display panel .

  16. 利用常压气体放电非平衡等离子体实现了纳米粉体材料(TiO2)的制备。

    Nanoscale TiO2 powder were prepared by atmospheric pressure non-equilibrium plasma .

  17. 通过用MonteCarlo方法模拟N2-H2混合气体直流辉光放电等离子体快电子行为,从不同H2浓度的电子能量分布函数,电子密度以及ef-N2碰撞率等方面,研究了加H2对氮辉光放电等离子体过程的影响。

    The effect of adding hydrogen to a nitrogen dc glow discharge is investigated by using Monte Carlo code to simulate the electron behavior in the cathode dark space ( CDS ) .

  18. 指出在大气压下,适宜利用惰性气体放电来产生等离子体。

    It is pointed out that inert gases are suitable for generating the plasma in atmospheric pressure .

  19. 气体放电作为获得等离子体的一种主要途径,在民用和工业中得到了越来越多的应用。

    Gaseous discharge , as a mean path of obtaining plasma , played a more important role in both civil and industrial applications .

  20. 本文首先介绍了磁控溅射镀膜过程中等离子体的性质、主要参数、气体放电过程以及等离子体的研究现状。

    This thesis introduces firstly the character and the main parameter of the plasma in the process of the Magnetron sputtering filming , the discharge process , and the research actuality about plasma .

  21. 气体电离放电产生臭氧等离子体的理论研究

    Theoretical study of producing plasma of ozone by gas ionization discharge

  22. 电磁波在气体放电快速产生的等离子体中传播

    Electromagnetic Wave Propagation Through the Plasma Suddenly-Created by Gas Discharge

  23. 气体放电中的各种等离子体鞘层。

    Different kinds of plasma sheaths in gas discharge .

  24. 本文在多组分流体层次上进行数值模拟计算,主要研究以下四个方面的问题:1.气体放电中的各种等离子体鞘层。

    This dissertation presents numerical simulation on multi-layer hydrodynamics , focusing on the four aspects as the followings : 1 . Different kinds of plasma sheaths in gas discharge .

  25. 高压纳秒脉冲气体放电是产生低温等离子体射流的方式之一,利用这种放电模式产生的等离子体射流具有均匀、稳定、活性粒子浓度高等特点,但目前国内研究较少涉及。

    High-voltage nanosecond pulse gas discharge is one of the most accessible ways to produce plasma jet with uniform , stable , and high concentration of active particles . However , there are few reports concerning about this research in domestic .

  26. 2概述气体放电的基本过程、气体放电等离子体的基本性质和辉光放电特性及一些参数的计算。

    Describe the basic process of gas discharge , the basic nature and characteristics of discharged plasma gas , glow discharge characteristics and some parameters of the calculation . 3 .

  27. 推导了双混合气体和具有潘宁效应的双混合气体的放电等离子体电子温度的理论计算公式。

    The formulas are derived for electron temperature in the plasma of a discharge for a binary mixture gas and a mixture gas possessing Penning effect .

  28. 实验方法一般是建立各种装置,采用仪器手段对装置中产生的等离子体进行测量;数值模拟则是建立气体放电模型,在大容量的计算机上,用大量粒子来模拟气体放电中等离子体的运动。

    The experimental methods are generally using some instrument to measure the parameters of plasma generated in the apparatus . Numerical simulation is to create a gas discharge model to simulate the movement of the plasma in the gas discharge in a large-capacity computer .