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Monolithic beam combined quantum cascade laser arrays with integrated arrayed waveguide gratings

Tushar Sanjay Karnik, Laurent Diehl, Khoi Phuong Dao, Qingyang Du, Christian Pflügl, D. Vakhshoori, Juejun Hu

2024Optics Express15 citationsDOIOpen Access PDF

Abstract

Quantum cascade lasers (QCLs) are ubiquitous mid-infrared sources owing to their flexible designs and compact footprints. Manufacturing multiwavelength QCL chips with high power levels and good beam quality is highly desirable for many applications. In this study, we demonstrate an λ ∼ 4.9 µm monolithic, wavelength beam-combined (WBC) infrared laser source by integrating on a single chip array of five QCL gain sections with an arrayed waveguide grating (AWG). Optical feedback from the cleaved facets enables lasing, whereas the integrated AWG locks the emission spectrum of each gain section to its corresponding input channel wavelength and spatially combines their signals into a single-output waveguide. Our chip features high peak power from the common aperture exceeding 0.6 W for each input channel, with a side-mode suppression ratio (SMSR) of over 27 dB when operated in pulsed mode. Our active/passive integration approach allows for a seamless transition from the QCL ridges to the AWG without requiring regrowth or evanescent coupling schemes, leading to a robust design. These results pave the way for the development of highly compact mid-IR sources suitable for applications such as hyperspectral imaging.

Topics & Concepts

OpticsQuantum cascade laserArrayed waveguide gratingOptoelectronicsLaserWaveguideMaterials scienceLaser beam qualityChipLasing thresholdWavelengthWavelength-division multiplexingPhysicsComputer scienceLaser beamsTelecommunicationsSpectroscopy and Laser ApplicationsPhotonic and Optical DevicesAdvanced Fiber Laser Technologies
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