Title :
Nonlinear Gain in Semiconductor Ring Lasers
Author :
Born, Chris ; Yuan, Guohui ; Wang, Zhuoran ; Yu, Siyuan
Author_Institution :
Dept. of Electr. & Electron. Eng., Univ. of Bristol, Bristol
Abstract :
Nonlinear gain in semiconductor ring lasers has been investigated theoretically based on density-matrix equations, including the effects of carrier density pulsations, carrier heating, spectral hole burning, and carrier diffusion. Expressions for nonlinear susceptibilities are derived analytically and compared with previous theoretical results. It is found that carrier diffusion have strong effects on both the amplitude and beat frequency dependency of the nonlinear susceptibilities. Various nonlinear parameters are also calculated based on the expressions obtained, and are consistent with published experimental results by other groups.
Keywords :
nonlinear optical susceptibility; optical hole burning; ring lasers; semiconductor lasers; carrier density pulsations; carrier diffusion; carrier heating; density-matrix equations; nonlinear gain; nonlinear susceptibility; semiconductor ring lasers; spectral hole burning; Charge carrier density; Frequency; Heating; Laser theory; Nonlinear equations; Optical bistability; Pump lasers; Resonance; Ring lasers; Semiconductor lasers; Carrier density pulsation; carrier heating; density matrix; nonlinear susceptibilities; semiconductor ring lasers (SRLs); spectral hole burning;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2008.2003172
