inhomogeneous plasma meaning in Chinese
不均匀等离子体
非均匀等离子体
Examples
- Propagation of electromagnetic wave along waveguide filled with inhomogeneous plasma
电磁波在非均匀等离子体波导中的传播 - Scattering of plane electromagnetic wave from anisotropic inhomogeneous plasma cylinder
平面电磁波在磁化分层不均匀等离子体圆柱上的散射研究 - Chapter 2 : the beam propagation of x - ray in an inhomogeneous plasma with a continuous varied refractive index is studied . we emphasize , theoretically and numerically , on the analysis of the effect of refractive index gradient on the beam parameters
第二章:研究了x射线激光光束在折射率连续变化的非均匀等离子体介质中的传播,从理论和数值模拟上着重讨论了折射率梯度效应对光束参数的影响。 - Using the microwave selective heating property for materials , by setup equivalent equation , and first time inducing the electromagnetic field perturbation theory to the design of heating materials for substrate in mpcvd , three temperature distribution modes were established , including temperature distribution comprehensive mode of inhomogeneous plasma , temperature distribution composite mode of composite substrate materials , temperature distribution perturbation mode of composite materials , which ii provided an whole new technology route to the design of substrate heating system in mpcvd and guided the preparation of heating materials for substrate . and then the heating materials for substrate were designed and optimized to obtain large area homogeneous temperature distribution even larger than substrate holder ' s diameter . as an important part , this thesis researched the nucleation and growth of diamond films in mpcvd , systematically researched the effects of substrate pretreatment , methane concentration , deposition pressure and substrate temperature etc experimental technologic parameters on diamond films " quality on ( 100 ) single crystal silicon substrate in the process of mpcvd , characterized the films qualities in laser raman spectra ( raman ) , x - ray diffraction ( xrd ) , scanning electron microscopy ( sem ) , infrared transmission spectra ( ir ) , atomic force microscopy ( afm ) , determined the optimum parameters for mpcvd high quality diamond in the mpcvd - 4 mode system
该系统可通过沉积参数的精确控制,以控制沉积过程,减少金刚石膜生长过程中的缺陷,并采用光纤光谱仪检测分析等离子体的可见光光谱以监测微波等离体化学气相沉积过程;利用微波对材料的选择加热特性,通过构造等效方程,并首次将电磁场摄动理论引入到mpcvd的基片加热材料的设计中,建立了非均匀等离子体温度场综合模型、复合介质基片材料的复合温度场模型及复合介质材料温度场摄动模型,为mpcvd的基片加热系统设计提供了一条全新的技术路线以指导基片加热材料的制备,并对基片加热材料进行了设计和优选,以获取大面积均匀的温度场区,甚至获得大于基片台尺寸的均匀温度区;作为研究重点之一,开展了微波等离体化学气相沉积金刚石的成核与生长研究,系统地研究了在( 100 )单晶硅基片上mpcvd沉积金刚石膜的实验过程中,基片预处理、甲烷浓度、沉积气压、基体温度等不同实验工艺参数对金刚石薄膜质量的影响,分别用raman光谱、 x射线衍射( xrd ) 、扫描电镜( sem ) 、红外透射光谱( ir ) 、原子力显微镜( afm )对薄膜进行了表征,确立了该系统上mpcvd金刚石膜的最佳的实验工艺参数。