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1)  erbium:ytterbium-doped fiber
掺铒/钇光纤
2)  Erbium-doped fiber
掺铒光纤
1.
Study on Optical Bi-Stability Phenomenon in Erbium-Doped Fiber Ring Laser;
环形掺铒光纤激光器中的光学双稳态现象研究
2.
The Fabrication Technics and Performance Research of Erbium-doped Fiber;
掺铒光纤的制备工艺及其特性研究
3.
This paper deals with the effects of different parameters on the optical pulsewhen the pulse passes through the erbium-doped fibers.
研究光脉冲经过掺铒光纤放大介质时各个参数对光脉冲的影响,得到保持光脉冲信号放大后不失真的最佳参数。
3)  Er-doped fiber
掺铒光纤
1.
Simulation and experimental study of double-cladding Er-doped fiber lasers;
双包层掺铒光纤激光器的数值模拟与实验
2.
The working principle of Er-doped fiber source(EDFS) was introduced.
介绍了掺铒光纤光源的工作原理以及在小体积情况下制作EDFS时,铒纤长度的优化,提高输出光谱的平坦度,提高平均波长稳定度的方法。
3.
By adjusting the pumping power and the length of Er-doped fiber,a fiber source output with bandwidth of 80nm at C+L band is obtained.
通过调整抽运功率和掺铒光纤长度,得到了80 nm带宽的C+L波段的宽带光输出。
4)  erbium doped fiber
掺铒光纤
1.
Short cavity and high concentration erbium doped fiber ring lasers;
短腔的高浓度掺铒光纤激光器
2.
The influence of erbium doped fiber length, input signal power, pump style and pump power on the gain characteristics of Bi EDFA is analyzed.
建立了考虑ASE谱和背景损耗影响的双向掺铒光纤放大器(BiEDFA)稳态放大速率方程模型,分析了增益与掺铒光纤长度、输入信号光功率、泵浦光功率及泵浦方式等结构参数之间的关系,研究了单向和双向等功率泵浦下正反向噪声系数随正反向信号光输入功率的变化行为,所得结果可作为BiEDFA优化设计的理论依
3.
A new style tunable fiber laser in which an acoustooptic tunable filter (AOTF) and an erbium doped fiber combine to form a Fabry Perot resonator is presented and theoretically investigated in this article.
提出了一种新型的可调谐光纤激光器 ,其谐振腔是由声光可调谐波长滤波器 (AOTF)和掺铒光纤构成的Fabry Perot腔。
5)  Er doped fiber
掺铒光纤
1.
The observation of increasing absorption nonlinearity and bistability without cavity in Er doped fiber is reported.
报道了的掺铒光纤中观测到的吸收增加非线性和无腔光学双稳运转。
6)  erbium-doped fiber(EDF)
掺铒光纤(EDF)
补充资料:掺钕钒酸钇激光晶体
分子式:Nd:YVO3 
CAS号:

性质:四方晶系锆英石结构单晶体。空间群D4h19-I4/amd。密度4.23g/cm3。莫氏硬度5.0。熔点1635~1730℃。热膨胀系数7.3×10-6/℃(⊥c)。热导率5.1W/(m·K)(⊥c)。折射率n0=1.86,ne=1.88。荧光寿命98μs。F2/3-4I11/2。跃迁波长1.064μm。晶体激光阈值低,效率高,受激发截面大(为20×10-19cm2),吸收线宽。采用提拉法、浮区区熔等法制备。用于制作LD泵浦。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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