SURVEY OF HYBRID EDFA/RAMAN IN C AND L BANDS

Revista Ingeniería, Matemáticas y Ciencias de la Información Pub Date : 2017-05-08 DOI:10.21017/RIMCI.2017.V4.N7.A18

J. Bonilla

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引用次数: 2

Abstract

Optical amplifiers have had a breakthrough in recent years. Initially, amplification of optical signals was performed passing the optical signal to the electrical domain, then the amplified signal back again to the optical domain. Subsequently, to avoid signal distortion, optical amplifiers arise. The first amplifier of this type was the amplifier SOA, which generated a lot of noise in the signal. The EDFA amplifier, which is based on doped fiber, appears to improve the noise figure with higher gain in the amplification process. Later, Raman amplifiers, which are based on the excitation of nonlinear phenomena in fiber provide greater amplification gain than EDFA and adds the least amount of ASE noise to the amplified optical signal. Hybrid amplifiers are the future of DWDM systems because its high bandwidth gain and low noise figure, allowing to increase system efficiency. This article discusses the different hybrid amplifiers, specifically the HOA RAMANEDFA amplifiers, by analyzing the RAMAN-EDFA-RAMAN configuration, its advantages and disadvantages in current DWDM systems are studied.DOI:http://dx.doi.org/10.21017/rimci.2017.v4.n7.a18

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c和l波段edfa / raman杂化研究

近年来，光放大器取得了突破性进展。最初，对光信号进行放大，将光信号传递到电域，然后将放大后的信号再次返回到光域。随后，为了避免信号失真，出现了光放大器。这种类型的第一个放大器是放大器SOA，它在信号中产生大量噪声。基于掺杂光纤的EDFA放大器在放大过程中以更高的增益改善了噪声系数。后来，基于光纤中非线性现象激发的拉曼放大器提供了比EDFA更大的放大增益，并且在放大的光信号中添加了最少的ASE噪声。混合放大器是DWDM系统的未来，因为它具有高带宽增益和低噪声系数，可以提高系统效率。本文讨论了不同的混合放大器，特别是HOA RAMANEDFA放大器，通过分析RAMAN-EDFA-RAMAN配置，研究了其在当前DWDM系统中的优缺点

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Revista Ingeniería, Matemáticas y Ciencias de la Información

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