Nonlinearity Compensation and Link Margin Analysis of 112-Gbps Circular-Polarization Division Multiplexed Fiber Optic Communication System using a Digital Coherent Receiver over 800-km SSMF Link

TL;DR

This paper presents a DSP-based coherent receiver with digital backpropagation for 112-Gbps CPDM fiber optic systems, effectively mitigating nonlinearities over 800 km and enhancing link capacity and spectral efficiency.

Contribution

It introduces a comprehensive design for nonlinear compensation in CPDM 8-QAM systems using digital backpropagation over long-distance links.

Findings

Effective nonlinear mitigation with DSP-based receiver

Improved BER and OSNR performance over 800 km

Enhanced link margin and spectral efficiency

Abstract

Nonlinear effects have been considered as the major limitations in coherent optical (CO) fiber transmission system. DSP based CO receiver with digital backpropagation (DBP) method has recently facilitated the compensation of fiber nonlinear impairments as well as compensating dispersion of optical fiber. In this paper, a comprehensive design is presented for circular-polarization division multiplexed (CPDM) 8-quadrature amplitude modulation (8-QAM) with DSP based CO receiver for the fiber optic communication (FOC) system to investigate the impact of nonlinearities. We have examined the performance of nonlinearity compensating DSP based CO receiver with DBP method and demonstrated that it can be effectively employed to mitigate the intrachannel nonlinearities in CPDM 8-QAM FOC system over 800-km SSMF link. By effectively compensating the fiber nonlinearities, we analyze the performance of bit error rate (BER), optical signal to noise ratio (OSNR), optimum launch power, and investigate the link margin by evaluating OSNR margin for a specific launch power. Moreover, a CPDM technique helps as a very suitable means of maximizing the link capacity as well as enhancing the spectral-efficiency (SE) of the FOC system.