Author:
Coutard J. G,Brun M.,Fournier M.,Lartigue O.,Fedeli F.,Maisons G.,Fedeli J. M,Nicoletti S.,Carras M.,Duraffourg L.
Abstract
AbstractThe manufacturing cost of quantum cascade lasers is still a major bottleneck for the adoption of this technology for chemical sensing. The integration of Mid-Infrared sources on Si substrate based on CMOS technology paves the way for high-volume low-cost fabrication. Furthermore, the use of Si-based fabrication platform opens the way to the co-integration of QCL Mid-InfraRed sources with SiGe-based waveguides, enabling realization of optical sensors fully integrated on planar substrate. We report here the fabrication and the characterization of DFB-QCL sources using top metal grating approach working at 7.4 µm fully implemented on our 200 mm CMOS pilot line. These QCL featured threshold current density of 2.5 kA/cm² and a linewidth of 0.16 cm−1 with a high fabrication yield. This approach paves the way toward a Mid-InfraRed spectrometer at the silicon chip level.
Publisher
Springer Science and Business Media LLC
Reference25 articles.
1. Soref, R. A., Emelett, S. J. & Buchwald, W. R. Silicon waveguided components for the long-wave infrared region. J. Opt. Pure Appl. Opt. 8, 840–848 (2006).
2. G. Overton, “Photonics Applied: Free space communications: Sophisticated optical systems extend reach of free-space communications”, In laserfocusworld (2010)
3. R. J. Grasso, “Defence and security applications of quantum cascade lasers”, Proc. SPIE9933, Optical Sensing, Imaging, and Photon Counting: Nanostructured Devices and Applications 2016, 99330 F (2016)
4. Bird, B. & Baker, M. J. Quantum Cascade Lasers in Biomedical Infrared Imaging. Trends in Biotechnology 33, 557–558 (2015).
5. Gaimard, Q. et al. Distributed feedback GaSb based laser diodes with buried grating: a new field of single-frequency sources from 2 to 3 µm for gas sensing applications. Opt. Express 23, 19118–19128 (2015).
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