Title :
Quantum cascade lasers using double quantum well superlattices
Author :
Wanke, Michael C. ; Capasso, Federico ; Gmachi, C. ; Tredicucci, Alessandro ; Sivco, Deborah L. ; Hutchinson, Albert L. ; Cho, Alfred Y.
Author_Institution :
Lucent Technol. Bell Labs., Murray Hill, NJ, USA
Abstract :
We have demonstrated the feasibility of using double quantum well superlattices as the active region of a quantum cascade (QC) laser. The features of the new design allow for much greater flexibility than previous SL QC lasers opening the possibility for new laser designs. For example, we could create an "injector-less" quantum cascade structure. The elimination of the injector region increases the overlap of the mode intensity profile with the active material while also increasing the number of active layers that can fit within a given waveguide core. This would lower the threshold and increase the output power compared to a laser requiring injectors
Keywords :
quantum well lasers; semiconductor quantum wells; semiconductor superlattices; waveguide lasers; AlInAs; InGaAs; active layers; active material; active region; double quantum well superlattices; injector region; injector-less quantum cascade structure; laser design; mode intensity profile; output power; quantum cascade lasers; waveguide core; Laser modes; Laser transitions; Optical design; Optical superlattices; Power lasers; Quantum cascade lasers; Quantum well lasers; Resonance; Temperature; Waveguide lasers;
Conference_Titel :
Lasers and Electro-Optics Society 2000 Annual Meeting. LEOS 2000. 13th Annual Meeting. IEEE
Conference_Location :
Rio Grande
Print_ISBN :
0-7803-5947-X
DOI :
10.1109/LEOS.2000.890739
