Multi-Tb/s Transmission based on DMT-modulated VCSELs in Metro Networks Assisted by Volterra Equalization

The effectiveness of Volterra equalization (VE) is analyzed to improve the performance of a metropolitan area network (MAN), characterized by directly-modulated (DM) vertical-cavity surface-emitting laser (VCSEL) sources combined with coherent detection, in order to target both high capacity and hundreds of km reaches. VE, which is a well-known nonlinear equalization technique, is used to cope not only with the distortion introduced by the real implementation of direct discrete multi-tone (DMT) modulation of the VCSEL, but also with the nonlinear impairments. A suitable experimentation, in case of 25-GHz spaced dense wavelength division multiplexed (DWDM) propagation, allows to validate a simulation tool, developed to provide a systematic analysis of the supported capacity per VCSEL, with and without VE. Simulations permit to analyze the effects of VE for different channel spacings (25, 50 and 100 GHz) and for different standard single-mode fiber (SSMF) lengths (up to 200 km), focusing on the evolution of the capacity per channel in case of different launch powers and optical signal-to-noise ratios. The dependence of the VE effectiveness is evaluated also in terms of spectral behavior. VE allows to achieve up to 13%-capacity increase, assuring 50 Gb/s rate per polarization per VCSEL, in case of DWDM transmission and after 200-km propagation, as targeted by the considered MAN applications.