Parametric amplification driven by orthogonal pump waves in birefringent fibers

The 15th Annual Meeting of the IEEE Lasers and Electro-Optics Society Pub Date : 2002-11-10 DOI:10.1109/LEOS.2002.1159398

C. McKinstrie, S. Radic, C. Xie

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Abstract

All fiber-optic communication systems need optical amplifiers to compensate for fiber loss. One could use parametric amplifiers, which use four-wave mixing (FWM) to amplify the signals. Not only can parametric amplifiers provide broad-bandwidth, low-noise amplification at arbitrary wavelengths, they can also conjugate the signals and convert their wavelengths. For most signal frequencies the dominant FWM process is phase conjugation (PC), in which two pump photons, one from each pump wave, combine to produce one signal photon (s) and one idler photon (i). By tuning the pump frequencies judiciously, one can produce uniform gain over a practical bandwidth. However, the signal gain associated with parallel pump waves depends sensitively on the polarization of the input signal. Because transmission fibers are not polarization-maintaining, practical amplifiers must operate on signals with arbitrary polarizations. The properties of PC in such fibers should be intermediate between those of PC driven by parallel pumps, which was discussed in previous papers, and PC driven by orthogonal pumps, which is discussed in this paper.

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双折射光纤中正交泵浦波驱动的参量放大

所有的光纤通信系统都需要光放大器来补偿光纤损耗。可以使用参数放大器，它使用四波混频(FWM)来放大信号。参数放大器不仅可以在任意波长提供宽带宽，低噪声放大，还可以共轭信号并转换其波长。对于大多数信号频率，主要的FWM过程是相位共轭(PC)，其中两个泵浦光子，每个泵浦波一个，结合产生一个信号光子(s)和一个空闲光子(i)。通过明智地调整泵浦频率，可以在实际带宽上产生均匀的增益。然而，与平行泵浦波相关的信号增益敏感地依赖于输入信号的极化。因为传输光纤不能维持偏振，所以实用的放大器必须处理任意偏振的信号。这类光纤中PC的性能应介于前几篇论文讨论的平行泵浦驱动PC和本文讨论的正交泵浦驱动PC之间。

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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The 15th Annual Meeting of the IEEE Lasers and Electro-Optics Society

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