1) electron beam
电子注
1.
Computer simulation of the electron beam movement state in periodic permanent magnet fields;
电子注在周期永磁聚焦系统中运动状态的计算机模拟
2.
Data Acquisition and Control System in Model EBAS 1 Electron Beam Analyzer;
EBAS-1型电子注分析仪数据采集及控制系统
3.
The magnetic field intensity of the solenoid used for travel wave tube and transport properties of electron beam in the slow wave system under its function is simulated with the electromagnetic code.
利用电磁场软件模拟了行波管电磁线包磁场,以及在电磁线包磁场作用下电子注在慢波系统中的运动特性。
2) Electron injection
电子注入
1.
Study of electroluminescence and electron injection on novel red polyelectrolytes copolymer;
高效饱和红光聚电解质的发光及电子注入特性研究
2.
The key factors of the ineffciency of this solar cell were discussed,such as electron injection and dye/Zn~(2+) aggregate formation,and some methods were proposed to improve the solar cell efficiency.
主要讨论了电子注入、dye/Zn2+的团聚等影响染料敏化纳米ZnO薄膜太阳电池效率的关键问题。
3.
By researching the electron injection of the CdSe detector with MIS contacts, it was found that the electron injection is the important reason which affects the properties of CdSe detectors.
研究了一种制作CdSe室温核辐射探测器的新工艺 ,并通过对CdSe室温核辐射探测器MIS接触电极电子注入机理的研究发现 ,CdSe探测器形成MIS接触电极可以降低表面漏电流 ,减小探测器噪声 ,提高探测器能量分辨率 。
3) Electronic registration
电子注册
1.
An Authenticated Electronic registration Scheme Based on Ellipse Curve;
一种基于椭圆曲线可认证的电子注册方案
2.
Electronic registration is a new continu- ity and development of the traditional administration of student records.
电子注册则是传统学籍管理工作在新形势下的延续和发展。
3.
Introduction of electronic registration of university enrollment management is the inevitable choice in the new situation.
新形势下实施电子注册是高校学籍管理的必然选择。
5) on-line registration
电子注册
1.
On-line Registration for Documentation of Academic Credentials and Reform in College Enrollment Management;
高校学历证书电子注册与学籍管理改革
2.
The student status and academic credentials on-line registration system symbolizes a scientific advance in higer-education management of China.
学籍学历电子注册制度是我国高等教育学历证书管理制度朝着科学性与先进性迈进的重要标志。
6) singlebeam
单电子注
补充资料:电子-电子双共振
在垂直静磁场H的方向,施加两个微波电磁场:①较弱的微波电磁场,激发电子从能级2向能级3跃迁,不致于饱和;②强的微波电磁场,激发电子从能级1向能级4跃迁,使达到饱和,从而导致能级4的电子转移至能级3,以观察反映2→3跃迁的电子自旋共振信号强度的变化,故称为电子-电子双共振。它与电子-核双共振不同之处是不涉及核的跃迁,并且观察的与电子自旋共振有关的能级和未观察的跃迁能级之间无共享的公共能级。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条