Open AccessGeneration and Transmission of Solitons at 64Gbps using Multiplexing in Polarization and Wavelength Domains
Author(s) -
V. Gouri,
K G Sreeni
Publication year - 2020
Publication title -
international journal of recent technology and engineering
Language(s) - English
Resource type - Journals
ISSN - 2277-3878
DOI - 10.35940/ijrte.b4129.079220
Subject(s) - multiplexing , wavelength division multiplexing , optics , polarization (electrochemistry) , polarization division multiplexing , jitter , physics , polarization mode dispersion , wavelength , transmission (telecommunications) , time division multiplexing , optical communication , electronic engineering , dispersion (optics) , computer science , telecommunications , engineering , chemistry
The factors which impose an upper limit on data rates in high speed optical systems have been explored. A 64Gbps system has been designed and simulated using a combination of Wavelength Division Multiplexing (WDM) and Polarization Division Multiplexing (PDM) employing soliton(secant hyperbolic pulse) transmission. The possibility of Gordon Haus jitter and adjacent pulse interaction, which curtails performance of very high speed systems, has been ruled out by use of multiplexing in multiple domains. The Polarization Mode Dispersion (PMD) has also been evaded by limiting the data-rate of individual channels to 8 Gbps. This also permits use of components with relaxed specifications, when compared to single channel realizations. In this work a 64 Gbps WDM-PDM based system employing secant hyperbolic pulses at 8Gbps over a distance of 1000km has been simulated. It yields an average bit error rate of 10-10