Review on phase preserving amplitude regeneration for phase-coded signals exploiting FWM in a saturated SOA

2015 Tyrrhenian International Workshop on Digital Communications (TIWDC) Pub Date : 2015-11-12 DOI:10.1109/TIWDC.2015.7323335

V. Vercesi, G. Serafino, A. Bogoni, C. Porzi

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Abstract

All-optical phase-preserving amplitude regeneration is an effective method to reduce nonlinear phase noise in long-haul transmission of phase-modulated signals. Here we review the latest results on a proposed differential phase shift keying (DPSK) regeneration scheme exploiting a compact architecture based on a saturated semiconductor optical amplifier. The scheme allows for amplitude-only signal regeneration with limited excess phase-noise contribution. Both the pass-through (PT) and the four wave mixing (FWM) signals exhibit enhanced Q-factor and margin improvement in bit error rate vs receiver threshold measurements, making the configuration suitable for both wavelength-preserving optical regeneration and wavelength regenerative conversion. The regeneration through FWM has an higher resilience to noise than the PT and its polarization dependency can be eliminated with the implementation of a dual co-polarized pump scheme. Preliminary experiments of simultaneous regeneration of two DPSK data streams are also provided.

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饱和SOA中利用FWM的相位编码信号保相幅度再生研究进展

全光保相幅值再生是一种有效的降低调相信号长距离传输中非线性相位噪声的方法。本文回顾了基于饱和半导体光放大器的紧凑结构的差分相移键控(DPSK)再生方案的最新研究结果。该方案允许仅限幅值的信号再生与有限的过量相位噪声贡献。与接收端阈值测量相比，直通(PT)和四波混频(FWM)信号在误码率方面都表现出增强的q因子和边际改善，使得该配置既适合保波长光再生，也适合波长再生转换。通过FWM再生比PT具有更高的噪声恢复能力，并且通过双共极化泵浦方案可以消除其极化依赖性。给出了两个DPSK数据流同时再生的初步实验。

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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2015 Tyrrhenian International Workshop on Digital Communications (TIWDC)

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