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all-optical gain-clamped
相关语句
  全光增益箝制
     All-Optical Gain-Clamped EDFA with High Gain and Low Noise Factor
     高增益低噪声全光增益箝制EDFA
短句来源
     Study of All-optical Gain-clamped Erbium-doped Fiber Amplifier
     全光增益箝制掺铒光纤放大器的研究
短句来源
     Based on Giles model with amplified spontaneous emission(ASE),numerical simulation for the all- optical gain-clamped EDFA was carried out.
     基于考虑自发辐射噪声(ASE)的Giles模型,建立了EDFA的全光增益箝制理论模型.
短句来源
  “all-optical gain-clamped”译为未确定词的双语例句
     All-optical Gain-clamped Low Noise Figure EDFA with Dynamic Gain Equalization
     具有动态增益均衡特性的低噪声全光增益箝位EDFA
短句来源
     Experimental Studies on dual-wavelength All-optical Gain-clamped Erbium-doped Fiber Amplifier
     双波长全光自动增益箝制EDFA实验研究
短句来源
  相似匹配句对
     A novel all-optical EDFA with flat and clamped gain is presented.
     给出了一种新型全光增益平坦动态增益箝制EDFA的结构.
短句来源
     Study of All-optical Gain-clamped Erbium-doped Fiber Amplifier
     全光增益箝制掺铒光纤放大器的研究
短句来源
     All-Optical Gain-Clamped EDFA with High Gain and Low Noise Factor
     高增益低噪声全光增益箝制EDFA
短句来源
     All-optical Gain-clamped Low Noise Figure EDFA with Dynamic Gain Equalization
     具有动态增益均衡特性的低噪声全光增益箝位EDFA
短句来源
     Experimental Studies on dual-wavelength All-optical Gain-clamped Erbium-doped Fiber Amplifier
     双波长全光自动增益箝制EDFA实验研究
短句来源
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An all optical gain clamped and flattened fiber amplifier is reported. This technique is applicable for WDM networks with dynamic gain equalization of high gain, high power EDFAs. The dynamic range reaches 23 dB (-40 ̄-17 dBm) for a constant 33 dB gain, while the -1 dB gain bandwidth is 14 nm (1547 ̄1561 nm). The output signal power is 16 dBm.

在光纤放大器内部同时建立增益谱锁定与平坦机制,研制出适合WDM网络应用的全光锁定高增益、大功率掺铒光纤放大器(EDFA)。在23dB输入功率动态范围(-40~-17dBm)内的增益箝制在33dB,对应总输入功率为-17dBm的输出光功率为16dBm,锁定的-1dB增益带宽为14nm(1547~1561nm)。

The paper,on the basis of comprehensive compilation of published materials,discusses the gain clamped mechanism of erbium doped fiber amplifier.Various method for all optical gain clamped are also outlined.Furthermore,recent researches of all optical gain clamped fber amplifier are reported. Finally,the promising future is prospected.

在综合分析研究各种已公开发表的文献资料基础上对掺饵光纤放大器的全光增益箝制机理、各种典型的全光增益箝制方法作了详细评述 ,特别报道了最近全光增益箝制掺铒光纤放大器的研究情况并对今后的发展作了展望。

In accordance with the need of gain control in a wavelength division multiplexed system,a gain- clamped L-band erbium doped fiber amplifier(EDFA)using a single fiber Bragg grating(FBG)was pro-posed.Based on Giles model with amplified spontaneous emission(ASE),numerical simulation for the all- optical gain-clamped EDFA was carried out.The influences of the configuration,the pump wavelength,the Bragg wavelength,the reflectivity,the pump power and the...

In accordance with the need of gain control in a wavelength division multiplexed system,a gain- clamped L-band erbium doped fiber amplifier(EDFA)using a single fiber Bragg grating(FBG)was pro-posed.Based on Giles model with amplified spontaneous emission(ASE),numerical simulation for the all- optical gain-clamped EDFA was carried out.The influences of the configuration,the pump wavelength,the Bragg wavelength,the reflectivity,the pump power and the length of erbium doped fiber(EDF)on the gain-clamped characteristics were studied.An optimal L-band gain-clamped EDFA configuration and the amplifier parameters,which can provide a flat-gain band simultaneously,were given.

针对波分复用系统要求掺铒光纤放大器(EDFA)必须具备增益锁定功能,提出采用单根光纤光栅的方法来箝制L-bandEDFA的增益.基于考虑自发辐射噪声(ASE)的Giles模型,建立了EDFA的全光增益箝制理论模型.系统分析了四种可能的光路结构、泵浦波长、光纤光栅反射波长和反射率、泵浦功率以及掺铒光纤长度等参量对箝制特性的影响.最后给出一组使EDFA在箝制增益的同时保持增益谱平坦的最佳结构和放大器参量.

 
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