Enabling ultra-high bit rate transmission with CFBG as dispersion compensator in an OptiSpan 240 km DWDM network

Baseerat Gul, Sajad Nabi
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Abstract

In this paper, a dispersion compensation technique for an ultra-long haul optical network utilizing a chirped fiber Bragg grating (CFBG) is presented. A high bit-rate signal of 40 Gbps is inputted into each channel. The CFBG, employed for dispersion compensation, is positioned after demultiplexing, enabling effortless network upgrades. The grating parameters of the implemented CFBG are mathematically analyzed and optimized to counteract net dispersion of over 3153 ps/nm across the channel. The design is verified using the OptiSystem software, resulting in a successful transmission up to 240 km with an average Q-factor of 8.09, utilizing an amplification gain of 49.5 dB. Additionally, the achieved optical signal-to-noise ratio (OSNR) level using the symmetrical amplification technique surpasses the acceptable value, with an average bit error rate of 10−16.
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在 OptiSpan 240 千米 DWDM 网络中使用 CFBG 作为色散补偿器实现超高比特率传输
本文介绍了一种利用啁啾光纤布拉格光栅(CFBG)的超长距离光网络色散补偿技术。每个通道输入 40 Gbps 的高比特率信号。用于色散补偿的啁啾光纤布拉格光栅在解复用后进行定位,从而实现轻松的网络升级。对所实现的 CFBG 的光栅参数进行了数学分析和优化,以抵消整个信道超过 3153 ps/nm 的净色散。使用 OptiSystem 软件对设计进行了验证,结果是成功传输了 240 公里,平均 Q 因子为 8.09,放大增益为 49.5 dB。此外,利用对称放大技术实现的光信噪比(OSNR)水平超过了可接受值,平均误码率为 10-16。
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