Title :
Distributed gain measurements in Er-doped fibers with high resolution and accuracy using an optical frequency domain reflectometer
Author :
Wegmuller, M. ; Oberson, P. ; Guinnard, O. ; Huttner, B. ; Guinnard, L. ; Vinegoni, C. ; Gisin, N.
Author_Institution :
Group of Appl. Phys., Geneva Univ., Switzerland
fDate :
12/1/2000 12:00:00 AM
Abstract :
For critical erbium-doped fiber amplifier (EDFA) design, e.g., gain tilt optimization in WDM booster amplifiers, knowledge of the gain distribution within the active fiber can present a valuable information. Among the different techniques to evaluate the distributed gain in active fibers, the technique of optical frequency domain reflectometry seems most promising as it is a non-destructive measurement method well matched to the task due to its dynamic range, resolution, and range. Moreover, background light from ASE or residual pump light is strongly rejected due to the coherent detection scheme employed. Using different erbium-doped fibers with strongly varying doping levels and confinements, we demonstrate the excellent accuracy and reproducibility of the technique.
Keywords :
erbium; measurement errors; optical fibre amplifiers; optical fibre testing; optical pumping; reflectometry; superradiance; Er-doped fibers; WDM booster amplifiers; active fiber; coherent detection scheme; distributed gain; distributed gain measurements; dynamic range; erbium-doped fiber amplifier; gain distribution; gain tilt optimization; high accuracy; high resolution; non-destructive measurement method; optical frequency domain reflectometer; optical frequency domain reflectometry; residual pump light; strongly varying doping levels; valuable information; Design optimization; Distributed amplifiers; Erbium-doped fiber amplifier; Frequency domain analysis; Gain measurement; Optical fiber amplifiers; Optical pumping; Reflectometry; Stimulated emission; Wavelength division multiplexing;
Journal_Title :
Lightwave Technology, Journal of
