掺铒光波导主要用来制作光波导放大器。
Erbium-doped optical waveguide is used to fabricate optical waveguide amplifiers.
掺铒光波导放大器以其体积小、增益高等优点而成为研究的热点。
Er3 + -doped optical waveguide amplifier (EDWA) become the hotspot of study because of its advantage like small volume, high gain etc.
本发明涉及激光领域,尤其涉及到一种光波导激光器、光波导放大器及制 作方法。
The invention relates to the laser filed, in particular an optical waveguide laser, an optical waveguide amplifier and a manufacturing method thereof.
并且为了全面发挥掺铒玻璃波导放大器的性能,需要抽运功率、波导长度等各个参量配合起来。
Moreover, in order to improve the EDWA performance, the parameters are optimized such as pump power and waveguide length.
此外本论文还讨论了截面尺寸的影响,对以后的研究工作和波导放大器的设计具有一定的参考意义。
The size of EDWA is also discussed here, which has some reference value for the following study and the design of waveguide amplifier.
本文分别从膜系设计、监控工艺以及滤光片制作与测试等方面阐述了掺铒光波导放大器增益平坦滤光片的研究和制作过程。
In the paper, filter of EDWA for gain flatting is expounded from design of coating system, technics of monitor and the produce or testing of sample.
这种缓存器由光纤延迟线、光波导开关阵及非线性半导体光放大器构成。
This optical buffer is composed with optical fiber delay lines, optical waveguide switching array and nonlinear semiconductor amplifier.
设计了同轴波导FEL放大器的输入耦合器,给出了该输入装置的相关参量。
The design of input coupler for a Ku-band coaxial FEL amplifier is presented. Main parameters are given.
本文对波导染料自发辐射放大器进行了理论和实验研究。
Theoretical and experimental studies on waveguide dye spontaneous emission amplifier are reported.
这种缓存器是由光纤延迟线、光波导开关阵及非线性半导体光放大器构成。
It is composed by fiber delay lines, an optical waveguide switching array and a nonlinear semiconductor optical amplifier.
第二章阐述电子回旋脉塞机理和CARM的工作原理,在此基础上论述同轴波导CARM放大器的工作机理及可实现性。
The second chapter expatiates the theory of electron cyclotron maser, the operational principle of CARM, and the practicable of coaxial-waveguide CARM amplifier.
利用该程序研究了椭圆波导FEM放大器的输出功率、效率、带宽等高频特性,并对不同椭圆度的椭圆波导FEM放大器的性能进行了计算、对比分析。
The characteristics of FEM amplifier with elliptical guide, such as the evolutin of power, efficiency and bandwidth, are analyzed. These results are useful to design FEM devices.
采用选择区域生长、量子阱混杂和非对称双波导技术制作了电吸收调制器与半导体光放大器和双波导模斑转换器的单片集成器件。
On the basis of the study of the single circular groove guide and symmetric double circular groove guide, a new structure, asymmetric double circular groove guide, has been put forward.
采用选择区域生长、量子阱混杂和非对称双波导技术制作了电吸收调制器与半导体光放大器和双波导模斑转换器的单片集成器件。
On the basis of the study of the single circular groove guide and symmetric double circular groove guide, a new structure, asymmetric double circular groove guide, has been put forward.
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