Title :
Modeling and optimization of short Yb/sup 3+/-sensitized Er/sup 3+/-doped fiber amplifiers
Author :
Nilsson, Johan ; Scheer, P. ; Jaskorzynska, B.
Author_Institution :
Dept. of Phys. II, R. Inst. of Technol., Stockholm, Sweden
fDate :
3/1/1994 12:00:00 AM
Abstract :
Short high-concentration Yb/sup 3+/-sensitized Er/sup 3+/-doped fiber amplifiers are modeled and numerically investigated in the small-signal domain. Concentration quenching is included with a term quadratic in the concentration of excited Er/sup 3+/. We find that for fibers shorter than 1 m, the small-signal gain can be larger for sensitized fibers than for non-sensitized ones (31 dB gain vs. 22 dB at 5 cm). Without concentration quenching (e.g. for long fibers), Yb/sup 3+/-free amplifiers have a higher small-signal gain. The achievable gain of the sensitized amplifier is independent of the pump laser wavelength, if the Yb-concentration is correspondingly optimized. However, restrictions on allowable Yb-concentrations imply that for a specific pump wavelength, a finite range of amplifiers lengths is suitable.<>
Keywords :
erbium; fibre lasers; laser theory; optical pumping; optical saturable absorption; optimisation; ytterbium; 22 dB; 31 dB; Yb-concentration; Yb/sup 3+/-free amplifiers; Yb/sup 3+/-sensitized Er/sup 3+/-doped fiber amplifiers; amplifiers lengths; concentration quenching; excited Er/sup 3+/; fibre amplifier modelling; fibre amplifier optimisation; pump laser wavelength; pump wavelength; sensitized fibers; small-signal domain; small-signal gain; Erbium; Erbium-doped fiber amplifier; Erbium-doped fiber lasers; Gain; Glass; Laser excitation; Metastasis; Numerical models; Pump lasers; Stationary state;
Journal_Title :
Photonics Technology Letters, IEEE
