2016
DOI: 10.1117/12.2223045
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High sensitivity stand-off detection and quantification of chemical mixtures using an active coherent laser spectrometer (ACLaS)

Abstract: High sensitivity detection, identification and quantification of chemicals in a stand-off configuration is a highly sought after capability across the security and defense sector. Specific applications include assessing the presence of explosive related materials, poisonous or toxic chemical agents, and narcotics.Real world field deployment of an operational stand-off system is challenging due to stringent requirements: high detection sensitivity, stand-off ranges from centimeters to hundreds of meters, eye-sa… Show more

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Cited by 5 publications
(12 citation statements)
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“…In standoff detection, the optical pathlength depends on the standoff distance that is usually variable in real-world applications, and hence, the performance is often quantified using the pathlength-integrated unit of ppm•m [9]. Further normalization with bandwidth renders a detection limit in the unit of ppm•m•Hz −1/2 to account for the SNR improvement with averaging in the domain that white noise dominates [7].…”
Section: Basic Principlementioning
confidence: 99%
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“…In standoff detection, the optical pathlength depends on the standoff distance that is usually variable in real-world applications, and hence, the performance is often quantified using the pathlength-integrated unit of ppm•m [9]. Further normalization with bandwidth renders a detection limit in the unit of ppm•m•Hz −1/2 to account for the SNR improvement with averaging in the domain that white noise dominates [7].…”
Section: Basic Principlementioning
confidence: 99%
“…The up to date results of LHR detection are summarized, as shown in Table 6. However, passive LHS derives its sensitivity from thermal contrast when used in transmission mode, which limits its ability to provide ppb level detection in any realistic standoff detection configuration [7]. Because of its passive nature, LHR is not sensitive enough for terrestrial remote detection of trace chemical plumes over distances of tens to hundreds of meters.…”
Section: Laser Heterodyne Radiometry (Lhr)mentioning
confidence: 99%
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