Title :
Analysis of polarization-dependent gain in fiber amplifiers
Author :
Wang, L.J. ; Lin, J.T. ; Ye, Peida
Author_Institution :
Beijing Univ. of Posts & Telecommun., China
fDate :
3/1/1998 12:00:00 AM
Abstract :
Polarization-dependent gain (PDG) in fiber amplifiers is studied theoretically. A mathematical model is developed by treating the dopant ions in glass host as partially anisotropic oscillators, and both the signal and the pump effects are taken into account. It is illustrated that PDG includes two components. One arises from polarization-selective excitation of the dopant ions by the pump; the other originates from polarization-selective deexcitation of the lasing ions by the saturating signal, known as polarization hole burning (PHB). PDG depends strongly on the operating state of the amplifiers such as the level of gain compression, the anisotropy of the dopant ions, and the relative polarization orientations of the signal and the pump. In a small-signal regime, PDG is induced only by the pump while in large-signal condition it is the sum of the two components. The good agreement between the theoretical calculations and the reported results confirms the validity of the model
Keywords :
fibre lasers; laser theory; optical fibre polarisation; optical hole burning; optical pumping; dopant ions; fiber amplifiers; glass host; lasing ions; mathematical model; partially anisotropic oscillators; polarization hole burning; polarization-dependent gain; polarization-selective deexcitation; polarization-selective excitation; pump effects; saturating signal; Anisotropic magnetoresistance; Erbium-doped fiber amplifier; Glass; Harmonic analysis; Laser modes; Optical amplifiers; Optical fiber amplifiers; Optical fiber polarization; Oscillators; Stimulated emission;
Journal_Title :
Quantum Electronics, IEEE Journal of
