Abstract
Output facet temperatures of an uncoated high power continuous-wave quantum cascade laser (QCL) emitting at 8.5 μm were measured by using micro-Raman thermometry. The rate of the measured temperature changes with the injected electrical power increased from 6.5 K/W below the laser threshold to 12.3 K/W above the threshold. In addition, the measured temperature rise exceeded 220 K at an optical power of 0.9 W, well above the model projections based only on Joule heating. Facet oxidation was characterized via x-ray photoelectron spectroscopy measurements at incremental etch depths. While the oxidation reactions of InP and Ga were observed only at the surface level, the measured penetration of native Al2O3 was ∼24 nm. COMSOL thermal modeling demonstrated that light reabsorption by the native Al2O3 layer could well explain the additional temperature rise above the threshold. These results suggest that facet oxidation must be addressed to ensure the reliability of high-power long wave infrared QCLs.
Highlights
The measured device was a buried heterostructure InP-based quantum cascade laser (QCL) with a laser core composed of an InGaAs/AlInAs superlattice, emitting at a wavelength of 8.5 μm
Output facet temperatures of an uncoated high power continuous-wave quantum cascade laser (QCL) emitting at 8.5 μm were measured by using micro-Raman thermometry
These results suggest that facet oxidation must be addressed to ensure the reliability of high-power long wave infrared QCLs
Summary
The measured device was a buried heterostructure InP-based QCL with a laser core composed of an InGaAs/AlInAs superlattice, emitting at a wavelength of 8.5 μm. Output facet temperatures of an uncoated high power continuous-wave quantum cascade laser (QCL) emitting at 8.5 μm were measured by using micro-Raman thermometry. The measured temperature rise exceeded 220 K at an optical power of 0.9 W, well above the model projections based only on Joule heating.
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