Title :
Using nonsoliton pulses for soliton-based fiber communications
Author :
Hong, Ben-Jan ; Wang, Likarn ; Yang, C.C.
Author_Institution :
Dept. of Electr. Eng., Pennsylvania State Univ., University Park, PA, USA
fDate :
4/1/1990 12:00:00 AM
Abstract :
Several properties of nonsoliton evolution are investigated, aiming at the possibility of using nonsoliton inputs as signal carriers in soliton-based optical fiber communications. Numerical results show that nonsoliton inputs can propagate stably while evolving into an oscillatory soliton-like central part and dispersive tails distributed on both sides. The cross-phase modulation between two channels during soliton evolution produces two effects: the pulses become asymmetric, and the pulse propagation speeds are changed. Both effects are attributed to the oscillations of the pulse shape during evolution. Even with these effects, the pulse can still propagate stably over a long distance. The results indicate that use of nonsoliton pulses for soliton-based fiber communications is quite promising
Keywords :
optical fibres; optical modulation; phase modulation; solitons; Raman compensation technique; asymmetric pulses; cross-phase modulation; dispersive tails; fibre loss; inter-channel modulation; nonsoliton inputs; nonsoliton pulses; oscillatory soliton-like central part; pulse propagation speeds; pulse shape; pulse shape oscillations; signal carriers; soliton evolution; soliton-based fiber communications; Chirp modulation; Dispersion; Interference; Optical fiber communication; Optical propagation; Optical pulses; Pulse compression methods; Pulse modulation; Shape; Solitons;
Journal_Title :
Lightwave Technology, Journal of
