Evanescent-Wave Gas Sensing Using an Integrated Thermal Light Source

Evanescent-Wave Gas Sensing Using an Integrated Thermal Light Source

The last years showed an increased request for miniaturised, CMOS-compatible gas detectors. In contrast to sensors utilizing metal-oxide chemical interfaces, optical strategies are potentially faster and more robust. Recently we demonstrated CO2 detection by evanescent-wave absorption in the mid-inf...

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Veröffentlicht in:Proceedings 2017-08, Vol.1 (4), p.550
Hauptverfasser: Cristina Consani, Christian Ranacher, Andreas Tortschanoff, Thomas Grille, Peter Irsigler, Bernhard Jakoby
Format: Artikel
Sprache:eng
Schlagworte:
evanescent-wave absorption
gas sensing
mid-infrared light
photonics
waveguides
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Zusammenfassung:The last years showed an increased request for miniaturised, CMOS-compatible gas detectors. In contrast to sensors utilizing metal-oxide chemical interfaces, optical strategies are potentially faster and more robust. Recently we demonstrated CO2 detection by evanescent-wave absorption in the mid-infrared using a combination of an external laser source and silicon waveguides based on CMOS technology. We now go one step further and demonstrate the feasibility of detection of CO2 down to a concentration of 3% with a low-cost integrated thermal source. These results are promising for further technological developments towards on-chip mid-infrared photonic gas sensors, and new designs are currently devised to increase the yet relatively low sensitivity.
ISSN:2504-3900
DOI:10.3390/proceedings1040550