Passive synthesis rules of coupled-cavity quantum cascade lasers

• Published in: Opto-electronics review Vol. 27; no. 3; pp. 268 - 274
• Main Authors: Krysicki, M., Salski, B., Kopyt, P.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.09.2019
• Subjects: Coupled cavities; Lasers; Quantum cascade lasers; Resonance characterization; Threshold gain; Threshold gain; Resonance characterization; Coupled cavities; Lasers; Quantum cascade lasers
• ISSN: 1230-3402; 1896-3757
• DOI: 10.1016/j.opelre.2019.08.001

[Display omitted] A new approach to passive electromagnetic modelling of coupled–cavity quantum cascade lasers is presented in this paper. One of challenges in the rigorous analysis of such eigenvalue problem is its large size as compared to wavelength and a high quality factor, which prompts for substantial computational efforts. For those reasons, it is proposed in this paper to consider such a coupled-cavity Fabry-Perot resonant structure with partially transparent mirrors as a two-port network, which can be considered as a deterministic problem. Thanks to such a novel approach, passive analysis of an electrically long laser can be split into a cascade of relatively short sections having low quality factor, thus, substantially speeding up rigorous electromagnetic analysis of the whole quantum cascade laser. The proposed method allows to determine unequivocally resonant frequencies of the structure and the corresponding spectrum of a threshold gain. Eventually, the proposed method is used to elaborate basic synthesis rules of coupled–cavity quantum cascade lasers.