Title :
Instabilities for quantum-cascade lasers under self-phase modulation
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Minnesota, Duluth, MN, USA
Abstract :
Theoretical analysis of lasing instability in quantum-cascade lasers was carried out. A mid-infrared quantum-cascade laser structure with triple resonance levels was chosen as the prototype of the lasing medium with high Kerr nonlinearity from optical transitions. The self-phase modulation effect induced by Kerr nonlinearity was found to possibly change the unstable frequency domain significantly, i.e., not only broaden the unstable domain but also drive it from single-mode to multi-mode. The instability mechanisms of quantum-cascade lasers include one like the coherent multi-mode Rishen-Nummedal-Graham-Haken instability and the spatial-hole-burning-induced single-mode instability.
Keywords :
laser frequency stability; optical Kerr effect; optical hole burning; quantum cascade lasers; self-phase modulation; Kerr nonlinearity; coherent multimode Rishen-Nummedal-Graham-Haken instability; lasing instability; midinfrared quantum cascade lasers; multimode instability; optical transitions; self phase modulation; single mode instability; spatial hole burning; triple resonance levels; unstable frequency domain; Equations; Quantum cascade lasers; Quantum mechanics; Kerr nonlinearity; instability; quantum-cascade lasers; self-phase modulation;
Conference_Titel :
Electronics and Optoelectronics (ICEOE), 2011 International Conference on
Conference_Location :
Dalian
Print_ISBN :
978-1-61284-275-2
DOI :
10.1109/ICEOE.2011.6013353
