1·Andthis paper mainly interprets the electronic scattering theory.
重点阐述了电子散射理论。
2·Secondly, we introduce scattering theory and scalar radiative transfer theory for the soot.
其次介绍了煤烟介质的光散射与辐射传输理论。
3·An in-process measuring of using optical technology based on light scattering theory is presented.
提出以光散射理论为基础,利用光学技术实现表面粗糙度的在线测量。
4·The Rayleigh scattering theory is quoted to analyze how single EPS sphere absorbs electromagnetic wave.
引用瑞利散射原理,分析了单体EPS球对电磁波的吸收。
5·The scattering theory and the instrument's principle, key technology, system performance and etc are described.
对散射理论以及仪器原理、关键技术和系统性能等进行了阐述。
6·Within the framework of exact scattering theory and under the wave zone condition, the image reconstruction is studied.
本文在严格的远区散射场的框架下,探讨了物象重建问题。
7·One is an introduction to computational techniques in quantum chemistry and the other is an introduction on scattering theory.
一是在量子化学方面的计算的技术的介绍,另一个是关于散射理论的一个介绍。
8·The stopping power of thermal plasma to heavy ions with low velocity is studied by using quantum scattering theory and dielectric response theory.
应用量子散射理论和介电响应理论,研究了热等离子体对低速重离子的电子阻止本领。
9·Based on Mie scattering theory (MST), two new methods for testing fire characteristics of optical and electrical cables are proposed and discussed.
作者基于米氏散射理论(MST),提出了两种光电线缆燃烧试验的新方法,并进行了相应的讨论。
10·The thesis comprises the following:Firstly, we present a new method that is similar to that of one dimension scattering theory in quantum mechanics.
第一,借鉴量子力学的一维散射理论方法,计算具有纵向分离的两单模光纤连接损耗理论。