Title :
Ultra-low temperature sensitive deep-well quantum cascade lasers (λ - 4.8 μm) via uptapering conduction band edge of injector region
Author :
Shin, Jae Cheol ; Mawst, L.J. ; Botez, D. ; Vurgaftman, I. ; Meyer, J.R.
Author_Institution :
ECE Dept., Univ. of Wisconsin-Madison, Madison, WI
Abstract :
A new design feature for deep-well quantum cascade (QC) lasers, in which the conduction band edge of the injector region is uptapered, results in virtual suppression of carrier leakage out of the active regions of 4.8 m emitting devices. For heatsink temperatures in the 20-90degC range the characteristic temperature coefficients for threshold, T0, and slope efficiency, T1, reach values as high as 278 and 285 K, respectively, which are nearly twice the values for conventional QC lasers. At 20degC, the threshold current density for uncoated, 30 period, 3 mm-long devices is only 1.8 kA/cm2.
Keywords :
conduction bands; current density; heat sinks; quantum cascade lasers; QC laser design; conduction band edge uptapering; emitting device; heatsink temperatures; injector region; size 3 mm; slope efficiency; temperature 20 degC to 90 degC; threshold current density; threshold temperature coefficients; ultralow temperature sensitive deep-well quantum cascade laser; wavelength 4.8 mum;
Journal_Title :
Electronics Letters
DOI :
10.1049/el.2009.1393
