Slow-light switching in nonlinear Bragg-grating coupler
arXiv:physics/0611287 · doi:10.1364/OL.32.001429
Abstract
We study propagation and switching of slow-light pulses in nonlinear couplers with phase-shifted Bragg gratings. We demonstrate that power-controlled nonlinear self-action of light can be used to compensate dispersion-induced broadening of pulses through the formation of gap solitons, to control pulse switching in the coupler, and to tune the propagation velocity.
3 pages, 4 figures