James T. McFarlan scite author profile

The feasibility of using fiber-optic Raman probes to identify and quantify gases in enclosures is investigated by measuring and comparing detection thresholds using several probe and enclosure designs. Unfiltered, non-imaging, fiber-optic probes are shown to achieve lower detection thresholds than a filtered, imaging, fiberoptic probe, provided that light scattering within the sample enclosure is minimized and provided that a window is not used between the probe and the analyte gas. Achievable thresholds for hydrogen, oxygen, nitrogen, carbon monoxide, and methane in gas mixtures are demonstrated to be below 1 kPa with ten seconds signal acquisition and 0.1 kPa with twenty minutes signal acquisition with the use of 0.4 W of 532-nm excitation. Ambient carbon dioxide in air (.03 kPa) is shown to be detectable in a twenty minute acquisition, and ambient water vapor is well above the detection threshold. Background signals generated within the optical fibers remain the principal factors limiting detection thresholds. Factors affecting the magnitudes of these signals reaching the detector are investigated and discussed. A flat piece of light-absorbing colored glass tilted to direct reflected light away from the fiber-optic probe performs well as a beam stop to reduce background signal in a simple, cylindrical sample enclosure.

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Magnetic Separation as a Plutonium Residue Enrichment Process

Avens

Gallegos

McFarlan

1990

Separation Science and Technology

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Beta-silicon carbide whisker-polymer composites

et al. 1988

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James T. McFarlan

Crystal structure of the zerovalent niobium complex Nb (η-C6H5Me)2

Performance of Fiber-Optic Raman Probes for Analysis of Gas Mixtures in Enclosures

Magnetic Separation as a Plutonium Residue Enrichment Process

Beta-silicon carbide whisker-polymer composites

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