Portable fiber-coupled diode-laser-based sensor for multiple trace gas detection
Date
1999
Authors
Lancaster, D.
Richter, D.
Tittel, F.
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Journal article
Citation
Applied Physics B: Lasers and Optics, 1999; 69(5-6):459-465
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D.G. Lancaster, D. Richter and F.K. Tittel
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Abstract
Tunable narrowband mid-infrared radiation from 3.25 to 4:4 mm is generated by a compact fiber-coupled, difference-frequency-based spectrosopic source. A 20-mW external cavity diode laser (with a tuning range from 814 to 870 nm) and a 50-mW distributed-Bragg-reflector diode-laser- seeded ytterbium-doped fiber amplifier operating at 1083 nm are difference-frequency mixed in a multi-grating, temperature-controlled periodically poled LiNbO3 crystal. A conversion efficiency of 0:44mW/(W₂cm) (corresponding to a power of ≈3 μW at 3:3 μm) represents the highest conversion efficiency reported for a portable device. Performance characteristics of such a sensor and its application to spectroscopic detection of CO2, N2O, H2CO, HCl, NO2, and CH4 will be reported in this work.
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Copyright Springer-Verlag 1999