Journal
APPLIED OPTICS
Volume 40, Issue 6, Pages 812-820Publisher
OPTICAL SOC AMER
DOI: 10.1364/AO.40.000812
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Distributed-feedback quantum-cascade (QC) lasers are expected to form the heart of the next-generation mid-IR laser absorption spectrometers, especially as they are applied to measurements of trace gases in a variety of environments. The incorporation of room-temperature-operable, single-mode QC lasers should result in highly compact and rugged sensors for real-world applications. We report preliminary results on the performance of a laser absorption spectrometer that uses a QC laser operating at room temperature in a quasi-cw mode in conjunction with balanced ratiometric detection. We have demonstrated sensitivities for N2O [10 parts in 10(6) volume-mixing ratio for a 1-m path (ppmv-m)] and NO [520 parts in 10(9) volume-mixing ratio for a 1-m path (ppbv-m)] at 5.4 mum System improvements are described that are expected to result in a 2 orders of magnitude increase in sensitivity. (C) 2001 Optical Society of America OCIS codes: 010.1120, 120.1740, 140.3070, 300.1030, 300.6260, 140.5960.
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