Stimulated Brillouin scattering (SBS) has become a favorable underlying mechanism in many demonstrations of all-optical variable delay in standard fibers, often referred to as slow …
Theoretical investigation leading to design of a single-mode As 2 Se 3-chalcogenide photonic crystal fiber is reported for generation of a tunable slow light. Maximum allowable …
T Schneider - Optics letters, 2008 - opg.optica.org
We discuss the maximum achievable time delay of stimulated-Brillouin-scattering-based systems that rely on the superposition of gain and loss spectra. As we will show, the time …
We theoretically investigate slow light generation using stimulated Brillouin scattering (SBS) in a short highly nonlinear liquid-filled photonic crystal fiber (PCF). We study optical …
Theoretical investigations of stimulated brillouin scattering-based tunable slow light in (i) E r- doped tellurite and (ii) undoped tellurite fibers are reported. Maximum allowable pump …
Here, a modified W 1 photonic crystal waveguide consisting of silicon rods arranged in a hexagonal lattice in the air is investigated for the aim of obtaining highly flattened defect …
We theoretically examine two designs of single-mode (i) Er-doped tellurite and (ii) undoped tellurite photonic crystal fiber (PCF) for generation of slow light with tunable features based …
As matter of course traditional silica optical fibers have been widely utilized in slow-light generation promoted by an inelastic scattering process designated as stimulated Brillouin …
The distinctive and prominent material characteristics of chalcogenide glasses, ie, amorphous semiconductors containing one or more chalcogen elements have been …