Theoretical study, modeling and simulation of SL quantum cascade lasers

## Abstract In the present work, we use spatially resolved thermoreflectance (SR TR) to measure temperature distribution over the facet of pulsed operated quantum cascade lasers. The laser beam probes the change in the refractive index caused by current‐induced heating of working device. The techni

## Abstract In this paper, a theoretical model for the cross‐plane thermal conductivity of layered quantum semiconductor structures is presented. This model is used to evaluate the cross‐plane thermal conductivity of the active region in GaInAs/AlInAs‐based quantum cascade (QC) lasers. We take into

## Abstract The philosophy behind this work has been to build a predictive “bottom up” physical model of quantum cascade lasers (QCLs) for use as a design tool, to interpret experimental results and hence improve understanding of the physical processes occurring inside working devices and as a simu

The effect of optical Kerr nonlinearity on the static and dynamic behaviors of quantum cascade laser operating in the mid-infrared is theoretically investigated. Our model is based on three-level rate equations including the dependence of the loss on photon number in the cavity. The optical stabilit

SO 2 spectra have been recorded with a quantum cascade laser spectrometer at 9 mm. Line positions, line strengths and self-broadening coefficients of 42 lines have been precisely determined. All these parameters have shown some discrepancies with those of the HITRAN database. Moreover several lines