High-Performance Quantum Cascade Lasers In The 7.3- To 7.8-Mu M Wavelength Band Using Strained Active Regions

We consider the use of strained quantum cascade (QC) laser designs in the 7.3- to 7.8-mu m wavelength region to improve the cw operating characteristics of these lasers at room temperature. We compare the performance of a QC laser with a strain-balanced active region with that of two similarly designed QC lasers with lattice-matched active-region layers, and we show that the strain-balanced design significantly outperforms the unstrained-layer designs in terms of threshold-current density, power slope efficiency, and cw output power at room temperature. A epi-side-down-mounted, double-channel ridge-geometry laser that was fabricated from the strained design with a ridge width of 13 mu m and a cavity length of 3 mm produced cw output power in excess of 500 mW at room temperature. The characteristic temperature T-0 for the strained-layer design as determined from pulsed measurements between 25 and 80 degrees C is 221.5 K, compared with a value of 194.0 K for one of the unstrained designs. (C) 2010 Society of Photo-Optical Instrumentation Engineers. [DOI: 10.1117/1.3498758]