Monte Carlo method is used to simulate energies and space distributions of low-energy electrons scattering(E_0≤5 keV) in Ni,NiTi and Ti bulks.
采用MonteCarlo方法,模拟了低能电子束(能量E0≤5keV)作用下Ni,Ti及NiTi合金固体中的电子散射,分析了3种金属/合金中散射电子的能量与空间分布。
, Part 1: Simulations on electrons scattering in Al,Ti alloy-plies; Part 2: Mechanical characters of fullerene & fullerene polymeric molecules.
本文研究内容分为两个部分,第一部分:航空铝、钛合金板材电子散射性能模拟;第二部分:研究碳富勒烯及其聚合体的力学特性。
The physical model of electron scattering is based on the us.
电子散射的物理模型则采用Mott散射截面描述电子与原子间的弹性相互作用,以及用介电函数理论描述电子与固体的非弹性相互作用,同时还考虑到了二次电子的级联产生过程。
An electron scattering model is proposed to explain the polarization of AGN(active galactic nuclei) in terms of its specific geometry and particle distribution,for example,Seyfert galaxy.
以赛弗特星系为例,考虑活动星系核的物质成分和特殊几何结构,通过建立电子散射模型来研究活动星系核的光学偏振,给出与观测结果相一致的偏振值,以及偏振度随视角变化的特性,对进一步研究活动星系核的统一模型有一定意义。
First of all, the paper gives summary and analysis the theoretical knowledge of the resolution, electron scattering and electro-optical calculation.
首先,本文对分辨力、电子散射、电子光学计算等的理论知识进行了总结与分析。
Emission of the backscattered electrons from ultra-thin film on substrate under the action of low-energy beams;
低能束作用下衬底上超薄膜背散射电子发射
Using Monte Carlo method, both emission and spatial distributions of the backscattered electrons(BSEs) of the solids Al,Cu,Ag,Au under the action of low energy electrons with energy E 0≤5*!keV have been simulated and calculated.
应用MonteCarlo方法 ,对能量E0 5keV低能电子作用下固体Al、Cu、Ag、Au的背散射电子发射及表面空间分布作了计算 。
The spatial distribution of backscattered electron in solids have been calculated by Monte Carlo method, based on Mott cross-seCtion for elastic scattering as well as Streitwolf,Quirm and Gryzinski s cross-section for inelastic scattering.
应用MonteCarlo方法,对不同能量低能电子作用下背散射电子在固体中的空间分布作了计算,电子的弹性散射用Mott截面描述、非弹性散射按文献[3]的方法由Streitwolf。
deep ocean electronic nephelometer
深海电子散射浊度计
medium energy electron scattering spectroscopy
中能电子散射能谱学
A Geometrical Model of Additivity Rule for Electron Scattering
电子散射可加性规则的几何模型(英文)
The key which recognizes resistance is electronic scattering institution.
认识“电阻”的关健环节是电子散射机构问题。
Simple but Accurate Calculations on the Elastic Scattering of Positron from Helium;
准确计算氦原子中正电子散射的简单方法
The amount of scattering will thus be proportional to the number of electrons.
于是散射辅射的量将与电子数成正比。
classical theory of scattering and absorption of electromagnetic wave by electron
电子对电磁波散射和吸收的经典理论
Electron Raman Scattering in Spherical Quantum Dots
球型量子点中的电子拉曼散射(英文)
Argon Atom Scattering in the Dual-mode Laser Field
双模激光场中电子-氩原子弹性散射
Electropolishing and Its Application in Electron Backscatter Diffraction Technology
电解抛光技术在电子背散射衍射分析中的应用
electron beam scanned dynamic scattering display
电子束扫描动态散射显示
efficient backscattered electron detector
高效反向散射电子探测器
Dipole model method for dielectric electromagnetic scattering analysis
介质体电磁散射的偶极子模型法研究
Physical properties of laser-electron Compton scattering
激光-电子康普顿散射物理特性研究
Introduction of Low-temperature Polarized Electronic Raman Scattering System
一种低温极化电子拉曼散射系统简介
STUDY OF ELECTRON MOMENTUM DISTRIBUTIONBY γ-RAY COMPTON SCATTERING ATLARGE SCATTERING ANGLE
用γ射线大角度康普顿散射研究电子动量分布
The Application of EBSD in Materials Research;
电子背散射衍射(EBSD)技术在材料领域的应用
an electric current produced between two electrodes as a result of electrons emitted by thermionic emission.
一种由于热离子散射产生的电子发射而在两个电极间产生的电流。
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