Title :
A Numerical Study of Cavity Enhanced Inter-Modal Four Wave Mixing in Injection-Locked Semiconductor Ring Lasers
Author :
Huanlu Li ; Dan Lu ; Zexin Kang ; Xinlun Cai ; Ning Zhang ; Siyuan Yu
Author_Institution :
Dept. of Electr. & Electron. Eng., Bristol Univ., Bristol, UK
Abstract :
Mode beating via third order nonlinearity in semiconductor ring lasers has been analyzed using a frequency-domain multimode rate equation model. Compared with Fabry-Perot lasers, semiconductor ring lasers are 1.33, 2, and 4 times more efficient in self-gain compression, cross-gain compression, and four-wave mixing processes, respectively, due to its travelling-wave nature. It is shown that, using dual (pump and signal) external optical injections into the ring laser cavity, multiple modes can be locked in phase via the strong four wave mixing phenomenon. This results in modulation of the light wave at the mode beating frequencies which could be used for RF optical carrier generation.
Keywords :
laser cavity resonators; laser mode locking; multiwave mixing; numerical analysis; optical modulation; optical pulse compression; optical pumping; ring lasers; semiconductor lasers; RF optical carrier generation; cavity enhanced intermodal four wave mixing; cross-gain compression; dual external optical injections; four-wave mixing; frequency-domain multimode rate equation model; injection-locked semiconductor ring laser cavity; light wave modulation; mode beating frequencies; numerical analysis; phase locking; pumping; self-gain compression; third order nonlinearity; travelling-wave nature; Cavity resonators; Equations; Laser mode locking; Manganese; Pump lasers; Semiconductor lasers; Semiconductor ring laser; four-wave mixing; frequency domain model; nonlinearity;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2013.2279936
