2010
DOI: 10.1016/j.cplett.2009.12.073
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Quantum cascade lasers in chemical physics

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Cited by 502 publications
(262 citation statements)
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References 135 publications
(178 reference statements)
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“…More recently, advances in room temperature, distributedfeedback quantum cascade (QC) lasers have led to the development of QC-laser-based NH 3 sensors using the strongest NH 3 absorption transitions located in the mid-infrared spectral region (Manne et al, 2006;Whitehead et al, 2007;McManus et al, 2008;Manne et al, 2009;Curl et al, 2010;Ellis et al, 2010;Gong et al, 2011). Although these closedpath systems are highly sensitive (ppbv or sub-ppbv), they suffer from sampling artifacts that limit precision and response time and complicate calibration methods (Whitehead et al, 2008;von Bobrutzki et al, 2010).…”
Section: J Miller Et Al: Open-path Qcl-based Ammonia Sensormentioning
confidence: 99%
“…More recently, advances in room temperature, distributedfeedback quantum cascade (QC) lasers have led to the development of QC-laser-based NH 3 sensors using the strongest NH 3 absorption transitions located in the mid-infrared spectral region (Manne et al, 2006;Whitehead et al, 2007;McManus et al, 2008;Manne et al, 2009;Curl et al, 2010;Ellis et al, 2010;Gong et al, 2011). Although these closedpath systems are highly sensitive (ppbv or sub-ppbv), they suffer from sampling artifacts that limit precision and response time and complicate calibration methods (Whitehead et al, 2008;von Bobrutzki et al, 2010).…”
Section: J Miller Et Al: Open-path Qcl-based Ammonia Sensormentioning
confidence: 99%
“…The UAV sensors can be used for satellite validation in the atmospheric boundary layer, horizontal and vertical mapping of local pollutants and greenhouse gases, meteorology, and understanding ecosystem dynamics (e.g., carbon uptake in a forest canopy). In addition, with only slight modifications to the sensors described in this project, mid-infrared quantum cascade laser sensors can be developed to probe a larger suite of trace gas species that have higher sensitivity and selectivity in the mid-infrared spectral region [23]. Future efforts include developing an in-line reference cell and numerical algorithms to improve stability and long-term precision to levels approaching our current 1 Hz precision, increased software functionality for spectral analyses and concentration values reported in real-time, and more robust intercomparisons with other sensors.…”
Section: Discussionmentioning
confidence: 99%
“…Recently infrared spectroscopy has shown progress in the use of more powerful IR sources, such as Quantum Cascade Lasers (QCL) by incorporating these devices in IR reflectance, IR transmission and even in IR microscopy applications [24]. QCL-based setups are being developed for in the field applications such as breath analysis, environmental research, airborne measurements, security applications, laser-based isotope ratio measurements, and many others.…”
Section: Introductionmentioning
confidence: 99%