High performance quantum cascade laser frequency combs at λ ∼ 6 μm based on plasmon-enhanced dispersion compensation

We demonstrate quantum cascade laser (QCL) optical frequency combs emitting at lambda similar to 6 mu m. A 5.5 mu m-wide, 4.5 mm-long laser exhibits comb operation from -20 degrees C up to 50 degrees C. A maximum output power of 300 mW is achieved at 50 degrees C showing a robustness of the system. The laser output spectrum is similar to 80 cm(-1 )wide at the maximum current, with a mode spacing of 0.334 cm(-1), resulting in a total of 240 modes with an average power of 0.8 mW per mode. To achieve frequency comb operation, a plasmonic-waveguide approach is utilized. A thin, highly-doped indium phosphide (InP) layer is inserted in the top cladding design to compensate the positive dispersion of the system (material and waveguide). This approach can be further exploited to design QCL combs at even shorter wavelengths, down to 4 mu m. Different ridge widths between 2.8 and 5.5 mu m have been fabricated and characterized. All of the devices exhibit frequency comb operation. These observations demonstrate that the plasmonic-waveguide is a robust and reliable method for dispersion compensation of a semiconductor laser systems to achieve frequency comb operation. (C) 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement