Influence of Optical Fiber Dispersion on Mamyshev Type Regenerator Performance

Progress in Electromagnetics Research Symposium Proceedings 2015
Piyush Bajpayee, Jurģis Poriņš, Andis Supe

In this paper we present results from the study on optical signal regeneration by using Mamyshev type regenerator and its dependence on fiber dispersion. Research is performed using computer simulation software Synopsis OptSim 5.3. Setup of investigated regenerator consists of a high power erbium doped fiber amplifier, highly nonlinear fiber and an optical bandpass filter that is slightly shifted away from the signal central frequency. Signal used for regeneration was an on-off keying return-to-zero code manipulated 40Gbit/s pulse sequence covered with white noise. The regenerator performance was evaluated by obtaining the regenerated optical signal bit error ratio for different optical filters and fiber dispersion coefficients.

Keywords
Bandpass filters; Computer software; Detector circuits; Fiber amplifiers; Fibers; Nonlinear optics; Optical communication; Optical fibers; Optical frequency conversion; Optical signal processing; Regenerators; White noise Bit error ratio (BER); Central frequency; Fiber dispersion; Highly nonlinear fibers; Optical bandpass filters; Optical fiber dispersion; Optical signal regeneration; Optical signals.
Hyperlink
http://www.piers.org/piers2015Prague/

Bajpayee, P., Poriņš, J., Supe, A. Influence of Optical Fiber Dispersion on Mamyshev Type Regenerator Performance. In: Progress in Electromagnetics Research Symposium Proceedings, Czech Republic, Prague, 6-9 July, 2015. Cambridge: The Electromagnetics Academy, 2015, pp.489-492. ISBN 978-1-934142-30-1. ISSN 1559-9450.

Publication language
English (en)