Reduction of noise figure in semiconductor laser amplifiers with Ga/sub 1-x/In/sub x/As/GaInAsP/InP strained quantum well structures

Abstract

The noise characteristics of semiconductor laser amplifiers (SLAs) in the Ga/sub 1-x/In/sub x/As/GaInAsP/InP strained quantum well (QW) system are theoretically calculated and analyzed using density-matrix theory and taking into account the effects of band mixing on both the valence subbands and the transition dipole moments. The numerical results show that a reduced noise figure can be obtained in both tensile and compressively strained QW structures due to the increase in differential gain and the decrease in transparent carrier density. From a comparison among compressively strained (x=0.70), unstrained (x=0.53), and tensile strained (x=0.40) QW SLAs at a fixed carrier density and optical confinement factor, it is found that the noise figure of the tensile strained QW reaches its lowest value of 3.4 dB at average input optical power of -20 dB. >