Title :
Design of Ultrafast All-Optical Signal Processing Devices Based on Fiber Bragg Gratings in Transmission
Author :
Fernandez-Ruiz, M.R. ; Carballar, A. ; Azana, Jose
Author_Institution :
Energie, Mater. et Telecommun., Inst. Nat. de la Rech. Sci., Montreal, QC, Canada
Abstract :
A general and practical approach for designing ultra-fast all-optical (all-fiber) signal processing devices based on chirped fiber Bragg gratings (C-FBGs) working in transmission is presented. The approach can be used to design any minimum-phase linear optical device, e.g., first and high-order all-optical time differentiators and integrators and a large variety of optical pulse shapers, significantly overcoming the bandwidth limitations of previous FBG-based designs. Processing speeds in the THz range, corresponding to sub-picosecond time features, can be achieved using readily feasible grating apodization profiles. The approach is successfully proved through the design of two relevant functionalities, namely a THz-bandwidth optical differentiator and a 1-ps flat-top optical pulse shaper.
Keywords :
Bragg gratings; high-speed optical techniques; optical design techniques; optical fibre theory; optical information processing; optical pulse shaping; terahertz wave devices; C-FBG; THz-bandwidth optical differentiator; bandwidth limitations; chirped fiber Bragg gratings; first-order all-optical time differentiator; first-order all-optical time integrator; flat-top optical pulse shaper; grating apodization profiles; high-order all-optical time differentiator; high-order all-optical time integrator; minimum-phase linear optical device; optical transmission; subpicosecond time; time 1 ps; ultrafast all-optical signal processing devices; Bandwidth; Chirp; Fiber gratings; Gratings; Optical signal processing; Spatial resolution; Bragg gratings; optical fiber devices; optical signal processing; ultrafast optics;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2013.2254467
