Title :
Dynamic properties of double-pass discrete Raman amplifier with FBG-based all-optical gain clamping techniques
Author :
Tang, M. ; Gong, Y.D. ; Shum, P.
Author_Institution :
Network Technol. Res. Centre, Nanyang Technol. Univ., Singapore
fDate :
3/1/2004 12:00:00 AM
Abstract :
The authors propose and implement a discrete fiber Raman amplifier configured in double-pass scheme together with fiber Bragg grating (FBG)-based all-optical feedback. The double-pass amplifiers achieve more than a 30-dB net gain with affordable pump power and guarantee a large margin for gain clamping. The all-optical gain clamping is provided by the lasing wavelength inside the cavity caused by the high reflectivity FBG and wide-band reflector. A stable gain is obtained for large input signal dynamic range of 30 dB. The gain variation is kept below 0.17 dB and the noise figure is flattened at the same time. Also, the authors investigate the Raman gain and noise figure as a function of signal wavelength with the proposed gain clamping technique.
Keywords :
Bragg gratings; Raman lasers; laser cavity resonators; laser noise; laser stability; optical feedback; optical fibre amplifiers; reflectivity; FBG-based all-optical gain clamping; Raman gain; all-optical feedback; all-optical gain clamping; cavity; double-pass discrete Raman amplifier; dynamic properties; fiber Bragg grating; gain variation; high reflectivity FBG; input signal dynamic range; lasing wavelength; noise figure; stable gain; wide-band reflector; Bragg gratings; Broadband amplifiers; Clamps; Feedback; Fiber gratings; Noise figure; Power amplifiers; Reflectivity; Stimulated emission; Wideband;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2004.823709
