Large Delay and Low Distortion of a 40 Gb/s Signal Propagating in a Slow Light System Based on Parametric Amplification in Optical Fibers

Abstract: We determine the distribution of fiber dispersion parameters with extremely high resolutions and use the results to accurately predict large delays and low distortions of 40-Gb/s signals propagating in fiber parametric amplification slow light systems.

“…Record tunable SFL delays of communication digital data signals were achieved in dispersion shifted fibers (DSF) [1]. In particular, experimental demonstrations were performed for 10 Gbit/s and theoretical predictions for 40 Gbit/s digital signals have been given [2,3].…”

Polarization control for slow and fast light in fiber optical, Raman-assisted, parametric amplification

“…Record tunable SFL delays of communication digital data signals were achieved in dispersion shifted fibers (DSF) [1]. In particular, experimental demonstrations were performed for 10 Gbit/s and theoretical predictions for 40 Gbit/s digital signals have been given [2,3].…”

Polarization control for slow and fast light in fiber optical, Raman-assisted, parametric amplification

Enhanced slow and fast light in strong dispersion region of the Raman assisted narrow band fiber optical parametric amplifier

Optimal operating conditions and modulation format for 160 Gb/s signals in a fiber parametric amplifier used as a slow-light delay line element