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1.
The net gain loss has relation to Er-doped concentration and input signal power.
净增益亏损与光波导掺铒浓度、入信号强度有关。
2.
COMPARATIVE INVESTIGATION OF FLUORESCENCE TRAPPING AND CONCENTRATION QUENCHING IN ERBIUM-DOPED BISMUTH-AND TELLURITE-BASED GLASSES
掺铒铋酸盐玻璃和掺铒碲酸盐玻璃的荧光俘获和浓度猝灭效应
3.
Photoluminescence intensity change of Er-doped, Yb∶Er co-doped silicate glass samples pumped under different wavelength
掺铒、镱铒共掺杂硅酸盐玻璃光致发光强度随泵浦波长的变化
4.
Temperature Dependence of the Gain in Er Doped Fiber Amplifiers
掺铒光纤放大器增益的温度依赖关系
5.
Temperature Property of Er~(3+) Doped Y_2O_3 Based on the Fluorescence Intensity Ratio
基于荧光强度比掺铒氧化钇的温度特性
6.
Operation Research of Temperature about Dependence EDFA;
掺铒光纤放大器(EDFA)温度特性的实验研究
7.
Temperature Characteristics of Er3~+-Doped Silicate Glass for High Temperature Sensing Material
高温传感材料——掺铒硅酸盐玻璃温度特性的研究
8.
uminium garnet crystal
掺铒钇铝石榴石晶体
9.
Experimental Studies, Analysis and Design for Erbium Doped Fiber Amplifiers with Low Noise Figure, High and Flat Gain;
低噪声、高增益、高平坦度掺铒光纤放大器的分析与实验研究
10.
Practice for conversion between resistivity and dopant density for boron-doped and phosphorus-doped silicon
GB/T13389-1992掺硼掺磷硅单晶电阻率与掺杂剂浓度换算规程
11.
Simulation of Er~(3+)-doped Al_2O_3 Optical Wave-guide Amplifier and Measurement of Er~(3+)-doped Optical Wave-guide Film;
高掺铒Al_2O_3光波导放大器的模拟计算及掺铒薄膜的特性检测
12.
Research on L-Band EDFL and Tunable EDFL;
L带掺铒光纤放大器及可调谐掺铒光纤激光器的研究
13.
Comparing research in the effect on the tissue temperature in the anterior chamber and the operation incision of pig eye which underwent Er:YAG Laser cataract photolysis and phacoemusification
掺铒钇铝石榴石激光与超声乳化晶状体术对猪眼前房及手术切口部组织温度影响的比较
14.
Acoustic Pressure Sensitivity of Yb~(3+)/Er~(3+) Co-Doped Distributed Bragg Reflection Fiber Laser Hydrophone
基于铒镱共掺分布布拉格反射式光纤激光器的有源光纤水听器声压灵敏度
15.
Enhancement Mechanism of Photoluminescence of Er~(3+)-Doped Al_2O_3 by Y~(3+) Codoping;
钇共掺杂的掺铒氧化铝光致发光增强机制研究
16.
Research on Nonlinear Property of Erbium Doped PCF and Germanium Doped PCF
掺铒及掺锗光子晶体光纤非线性的研究
17.
A Study on Preparation and Properties of Highly Doped Mn: MgAl_2O_4 Transparent Ceramics;
高掺杂浓度的掺锰铝酸镁透明陶瓷的制备及其物性研究
18.
erbium-doped silica fiber amplifier
掺铒二氧化硅光纤放大器