Influence of four wave mixing on modulation format performance under 100 Gb/s data rate

2012 IEEE Student Conference on Research and Development (SCOReD) Pub Date : 2012-12-01 DOI:10.1109/SCORED.2012.6518625

A. Haider Jabber, N. M. Din, M. Al-Mansoori, F. Abdullah, H. A. Fadhl, N. Salim, A. Saher

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引用次数: 3

Abstract

Four-wave mixing (FWM) is undesirable nonlinear effects that can degrade the optical transmission system. Under high data rate, i.e. 100 Gbps, and ultra-long haul distance, the effects of FWM can limit the system performance significantly. In this paper, we have analyzed and evaluated the system performance tolerance to FWM under the impact of effective area variation. The study was conducted in the presence of normal Non-Return-Zero (NRZ) and Return-Zero (RZ) intensity modulation. In addition, the tuning of effective area on FWM has been done with both types of modulation format. It is found that the RZ modulation introduces minimum FWM power up to -79.5dBm at 80μm2 effective area, while NRZ offers maximum FWM power less than -74 dBm at the same effective area. In the case of system performance with the effective area variation at 80μm2, the BER is 1.99×10-92 at received power of -5.809 dBm in normal RZ modulation. However, in the presence of NRZ modulation format the BER was found to be less than 8.49-10-21 at -10.77 dBm received powers. Overall, the result indicates that RZ modulation is the suitable choice for high speed transmission distance and optimum bit-error-rate.

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100gb /s数据速率下四波混频对调制格式性能的影响

四波混频是一种严重影响光传输系统性能的非线性效应。在高数据速率(即100 Gbps)和超长距离下，FWM的影响会显著限制系统性能。本文分析和评价了在有效面积变化影响下系统对FWM的性能容忍度。该研究是在正常的非归零(NRZ)和归零(RZ)强度调制的情况下进行的。此外，在两种调制格式下对FWM的有效面积进行了调谐。结果表明，在80μm2有效面积下，RZ调制产生的最小FWM功率可达-79.5dBm，而NRZ调制在相同有效面积下产生的最大FWM功率小于-74 dBm。在有效面积变化为80μm2的情况下，在接收功率为-5.809 dBm时，系统的误码率为1.99×10-92。在-10.77 dBm接收功率下，采用NRZ调制格式时，误码率小于8.49-10-21。综上所述，RZ调制是高速传输距离和最佳误码率的理想选择。

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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2012 IEEE Student Conference on Research and Development (SCOReD)

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