Modeling Nonlinear Phase Noise in Differentially Phase-Modulated Optical Communication Systems

Abstract Using an alternative approach for evaluating the Bit-Error Rate (BER), we present a numerical and experimental investigation of the performance of phase-modulated optical communication systems in the presence of nonlinear phase noise and dispersion. The numerical method is based on the well known Karhunen-Lo`eve expansion combined with a linearization technique of the Nonlinear Schr¨odinger Equation (NLSE) to account for the nonlinear interaction between signal and noise. Our numerical results show a good agreement with experiments.     «

Abstract Using an alternative approach for evaluating the Bit-Error Rate (BER), we present a numerical and experimental investigation of the performance of phase-modulated optical communication systems in the presence of nonlinear phase noise and dispersion. The numerical method is based on the well known Karhunen-Lo`eve expansion combined with a linearization technique of the Nonlinear Schr¨odinger Equation (NLSE) to account for the nonlinear interaction between signal and noise. Our numeric...     »