本文提出一种基于光纤环形腔半导体激光器(FRSL)的波长转换方案,阐述了其结构模型和工作原理。
The paper presents a new scheme of wavelength conversion, which based on fiber ring semiconductor lasers (FRSL). Its configuration and operating principle are demonstrated.
分析了泵浦调制掺铒光纤环形激光器中混沌产生以及同步的理论模型。
The models of chaos generation and synchronization in Er-doped fiber ring lasers with modulated pump are analyzed.
研制出一种新颖的窄线宽、单偏振输出全光纤环形激光器,并给出了这种激光器的结构和技术性能参数。
A narrow linewidth single polarized all fiber ring laser has been fabricated. The structure and the technical parameters are presented.
提出了一种基于光纤环形腔半导体激光器的全光波长转换方案。
A scheme of all-optical wavelength conversion based on fiber ring semiconductor lasers is raised.
构建了双环掺铒光纤环形激光器的实验系统。
The experimental system with two Er-doped fiber ring lasers is constructed.
我们设计了一个环形光纤双稳态激光器,从实验上观测到了双稳态现象。
In our study, we have proposed a simple design of Erbium-doped fiber ring laser and observed distinguishing bi-stability phenomenon.
研究了基于半导体光放大器(SOA)的光纤环形激光器的偏振混沌光的特性及其相干性。
The characteristic of polarization chaos laser and coherence of semiconductor optical amplifier(SOA)-based fiber ring laser are investigated.
对一种结构新颖的自调q掺铒光纤环形激光器的工作机理进行了研究。
The mechanism of a novel structure self-Q-switched erbium-doped fiber ring laser has been investigated.
本文给出了在环形光纤外腔光反馈之下半导体激光器频偏特性的小信号分析理论。
In this paper a complete small signal analysis for semiconductor laser frequency chirping in the presence of optical fiber ring feedback is presented.
我们从速率方程和传播方程出发,对环形腔结构的掺铒光纤激光器的输出特性进行了详细的理论分析。
Derived from rate equations and propagation equations, the output characteristic of Er3 + -doped fiber ring laser is studied in details.
我们理论和实验上分析了该新型滤波器透射特性,并在此基础上通过调节PC实现了双波长和各自单波长输出的环形腔光纤激光器。
We theoretically and experimentally analyze the transmission traits of novel Sagnac loop, and realize dual-wavelength and single wavelength output switchable ring fiber laser through adjusting PCs.
该光纤环形腔激光器工作在连续波状态下。
Thus, a fiber ring laser gyroscope (FRLG) operating in continuous wave was demonstrated.
通过求解速率方程,建立了环形掺铒光纤激光器的理论模型。
A theoretical model has been established based on the solution of the rate equations for the erbium-doped fiber ring laser (EDFL).
介绍了内置光纤光栅的主动锁模光纤环形激光器输出光脉冲波长电切换的工作原理和实验结果。
Electrical wavelength switching of an actively mode-locked, fiber Bragg grating incorporated fiber ring laser is demonstrated.
分析了掺铒光纤环形激光器中非线性高频混沌产生和同步的基本原理。
Study on controlling chaos synchronization by reverse-phase-shift in dual-ring erbium-doped fiber lasers;
报道一种新型全光纤调q掺铒光纤激光器,在其结构中采用带有光纤光栅的光纤环形镜作为调q装置。
A novel all optic fibers Q-modulated erbium-doped optic fibers laser is reported. The optic fibers ring mirror with optic fibers grating is used as Q-modulation device in its configuration.
同一个光纤环形激光器输出的由光纤光栅布喇格波长决定的两个不同波长的光脉冲可以每秒十万次的速度切换。
Output optical pulses from the laser can switch between two wavelengths determined by the Bragg wavelengths of two fiber gratings in the ring at the rate of 105 per second.
报道了基于布里渊光纤环形激光器的可控光学延时线,通过两段串联光纤获得了较大的延时。
A controllable optical delay line using a Brillouin optical fiber ring laser is demonstrated and a large time delay is obtained by cascading two optical fiber segments.
通过数值模拟比较细致地分析研究了影响可调谐环形腔掺铒光纤激光器输出特性的几个主要因素,用以指导可调谐掺铒光纤激光器的实验研究工作。
By the numerical simulation, the factors of influence on the characteristics of the EDFRL are analyzed and studied in detail. And the results are used to guide the experimental studies on the EDFRL.
实验表明,采用非线性放大复合环形镜构成复合腔光纤激光器,有可能获得高重复频率的锁模脉冲。
It is suggested that using a NACLM as a passive mode locking element, generation of ultrashort pulses of very high repetition rate is promising with a fiber laser.
本文的主要内容是对可调谐环形腔掺铒光纤激光器工作特性的数值模拟计算和实验研究。
The main contents of the thesis include the numerical simulation and experimental studies on tunable EDFRL.
通过对文献中报道的环形腔结构光纤激光器输出的分析,指出了其存在的问题,并提出了减小其输出背景噪声的改进方案。
By analyzing the output spectra of former configurations, a problem was indicated, and an improved loop structure to eliminate the background noise was proposed.
通过对文献中报道的环形腔结构光纤激光器输出的分析,指出了其存在的问题,并提出了减小其输出背景噪声的改进方案。
By analyzing the output spectra of former configurations, a problem was indicated, and an improved loop structure to eliminate the background noise was proposed.
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