Auger recombination in type I GalnAsSb/GaSb lasers and its variation with wavelength in the 2–3 μm range
2017 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC)(2017)
摘要
Summary form only given. Semiconductor lasers operating in the 2-3 μm wavelength range are useful for a variety of applications including environmental monitoring, non-invasive medical diagnosis and industrial processing [1]. While type-I GalnAsSb/GaSb quantum well (QW) lasers have achieved room temperature operation up to 3.73 μm, they are limited by the effects of non-radiative Auger recombination, inter-valence band absorption and carrier leakage due to inadequate hole confinement, all of which induce sensitivity to temperature [2]. Here we report studies of the non-radiative recombination mechanisms in type-I GalnAsSb based lasers, in order to assist device optimisation [3-5].
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关键词
type I GalnAsSb-GaSb lasers,semiconductor lasers,environmental monitoring,noninvasive medical diagnosis,industrial processing,type-I GalnAsSb-GaSb quantum well lasers,room temperature operation,nonradiative Auger recombination,intervalence band absorption,carrier leakage,hole confinement,nonradiative recombination mechanisms,type-I GalnAsSb based lasers,device optimisation,wavelength 2 mum to 3 mum,wavelength 3.73 mum,temperature 293 K to 298 K,GaInAsSb-GaSb
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