Title :
Design and Fabrication of Novel Broadband Long-Period Fiber Gratings Using Synthesis Techniques
Author :
Kritzinger, Ronnie ; Meyer, Johan
Author_Institution :
Telkom SA Ltd., Pretoria, South Africa
fDate :
4/15/2011 12:00:00 AM
Abstract :
We present results of novel broadband long-period gratings (LPGs) that were fabricated axially symmetric in single-mode fiber with a carbon-dioxide laser. The discrete layer-peeling (DLP) technique and a genetic algorithm (GA) were used to design the LPGs. Numerical simulations were used to indicate the performance and absolute error of reconstructing a complex spectral profile for a particular synthesis technique. We found that the DLP technique has the highest performance and executes in the least amount of time. However, a GA could not efficiently synthesize an LPG, but produced a refractive index change profile that can be implemented using a common LPG fabrication system. It is shown that the experimental results obtained with the GA are superior to that obtained with the DLP technique.
Keywords :
carbon compounds; diffraction gratings; gas lasers; genetic algorithms; optical design techniques; optical fibre fabrication; CO2; carbon-dioxide laser; discrete layer-peeling method; genetic algorithm; long-period Fiber gratings; optical design; optical fabrication; single-mode fiber; Algorithm design and analysis; Couplings; Fabrication; Fiber gratings; Fiber lasers; Gratings; Refractive index; Carbon-dioxide (CO$_{2}$) laser; complex spectrum; genetic algorithm (GA); layer-peeling technique; long-period gratings (LPGs);
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2011.2113315
