Electron energy loss spectroscopy(EELS) was used to study grain boundaries(GB) in steels.
本文采用电子能量损失谱(EELS)研究了不同商用钢铁材料的晶界,计算了晶界处和晶粒内铁原子的3d电子占据态密度,并将其和晶界性质以及材料的宏观断裂性能相联系。
Cation,charge/orbital ordering in layered hexagonal cobalt oxides and the electron energy-loss spectra(EELS) in NbB2 have been systematically investigated to demonstrate the application of advanced TEM on crystal and electronic structure of functional materials.
本文深入研究了六方层状结构钴氧化物中的层间阳离子排列,电荷/轨道序和金属超导体NbB2中的电子能量损失谱,阐述了现代透射电子显微镜(TEM)技术和电子能量损失谱在功能化合物研究领域的应用。
Electron energy loss spectroscopy (EELS) was used to study grain boundaries in steels.
采用电子能量损失谱(EELS)研究了不同商用钢铁材料的晶界,计算了晶界处和晶粒内铁原子的3d电子占据态密度,并将其和晶界性质以及材料的宏观断裂性能相联系。
Deconvolution of Electron Energy Loss Spectrum of Diatomic Molecules
双原子分子电子能量损失谱的解谱方法
electron energy loss spectroscopy
电子能量损失能谱法
At the same time broaden the spectrum as result of energy loss fluctuations.
与此同时,电子谱由于能量损失的涨落而展宽。
characteristic electron loss phenomena
特征电子能量损失现象
charged particles energy loss by ionization
带电粒子的电离能量损失
This paper describes the front-end electronics and data acquisition (DAQ) system used in Electron Energy Loss Coincident Spectrometer (EELCS).
介绍了用于原子分子实验的能量损失符合谱仪的前端电子学和数据获取系统。
Decay curves of metastable fragment ions is also obtained by means of ion energy loss scans spectroscopy.
利用离子能量损失扫描谱,得到亚稳态碎片离子的衰变曲线。
The Theory and Application of Electron Energy Loss Spectroscopy in Anisotropic Materials;
各向异性材料中的电子能量损失理论及其应用
Effects on the Two Photon Ionized Photoelectron Spectra by the Detuning;
失谐量对双光子电离光电子谱的影响
Suppression Effect of Single Hadron Spectra on System Size Dependence of Energy Loss in High Energy Heavy Ion Collision;
高能重离子碰撞中依赖系统大小的能量损失对单强子谱压低的影响
Research on Cd Ⅰ Energy Spectrum by Multichannel Quantum Defect Theory;
CdⅠ能谱的多通道量子亏损理论(MQDT)研究
A Method of Acoustic Transmission Loss Calculated with Background Noise Removal-energy Summation
一种用能量谱去噪声计算声传播损失的方法
Capacitor Energy Loss and Total Non-elastic Collision Energy Loss of Analog
电容器的能量损失与完全非弹性碰撞能量损失的类比
THE SIMULATION RESEARCH ON ENERGY LOSS AND RANGE OF SPUTTERING IONS
离子溅射能量损失及射程的模拟研究
Solar chimney power generation and its energy loss
太阳能热气流发电系统透平发电及其能量损失
Higher voltage cables, which carry lower currents, lose less power, but the average is around 1 per cent loss.
电压越高的电缆输送的电流强度就越小,损失的能量也就越少,但一般而言能量损失大约1%左右。
Energy Loss Influence in Negative Ion TOF-MS
能量亏损对负离子飞行时间质谱的影响
In an ordinary resistance, the energy which is "lost" passes into heat.
在一个普通电阻中,损失的能量转变成为热。
CopyRight © 2020-2024 优校网[www.youxiaow.com]版权所有 All Rights Reserved. ICP备案号:浙ICP备2024058711号