Title :
High-power quantum dot lasers with improved temperature stability of emission wavelength for uncooled pump sources
Author :
Deubert, S. ; Debusmann, R. ; Reithmaier, J.P. ; Forchel, A.
Author_Institution :
Tech. Phys., Univ. Wurzburg, Germany
Abstract :
915 nm quantum dot lasers with temperature stable emission wavelengths have been realised for uncooled high-power applications. Broad area lasers with optimised dot geometry exhibit a thermal induced wavelength shift of 0.09 nm/K, which is 3.5 times lower than for quantum well lasers. Despite this improvement the lasers show high output powers of more than 3 W and wallplug efficiencies of 55% in continuous-wave operation.
Keywords :
laser frequency stability; quantum dot lasers; 915 nm; continuous-wave operation; dot geometry optimization; quantum dot lasers; temperature stability; temperature stable emission wavelengths; thermal induced wavelength shift; uncooled high-power applications; uncooled pump sources; wall-plug efficiency;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:20052675
