Title :
Theory of pulse shepherding in bit-parallel WDM soliton systems
Author :
Ostrovskaya, E.A. ; Kivshar, Y.S.
Author_Institution :
Opt. Sci. Centre, Australian Nat. Univ., Canberra, ACT, Australia
Abstract :
Summary form only given.The successful design of low-loss dispersion-shifted and dispersion-flattened optical fibers with low dispersion over a relatively large wavelength range can be used to reduce or completely eliminate the group-velocity mismatch for the multi-channel WDM systems. If the two co-propagating pulses are widely separated, each pulse propagates independently as if without the presence of the other pulse. However, they can be brought significantly closer to each other by the launching of another pulse on a separate wavelength with the proper magnitude and at the proper time. This pulse is called the shepherd pulse because of its shepherding behavior on the other pulses. We analyse these nonlinear modes, the stationary localised pulses of the WDM model, and provide a deep insight into the physics of the shepherding effect.
Keywords :
nonlinear optics; optical fibre communication; optical fibre dispersion; optical solitons; telecommunication channels; wavelength division multiplexing; WDM model; bit-parallel WDM soliton system; co-propagating pulses; dispersion-flattened optical fibers; group-velocity mismatch; low dispersion; low-loss dispersion-shifted optical fibers; multi-channel WDM systems; nonlinear modes; physics; pulse shepherding; relatively large wavelength range; shepherd pulse; shepherding effect; stationary localised pulses; Circuits; Fluctuations; Jitter; Optical design; Optical fibers; Optical pulses; Sampling methods; Solitons; Space vector pulse width modulation; Wavelength division multiplexing;
Conference_Titel :
Lasers and Electro-Optics, 2000. (CLEO 2000). Conference on
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
1-55752-634-6
DOI :
10.1109/CLEO.2000.906956
