Andy Sappey scite author profile

A nonresonant cavity ringdown diagnostic to measure light attenuation from atmospheric particulate matter at 532- and 355-nm wavelengths is described. The presence of atmospheric particulate is clearly detectable with this technique, as demonstrated by experimental results. The extinction cross section is higher at 355 than at 532 nm, although we were able to purchase significantly higher-reflectivity optics at 532 nm. The expected advantage at 355 nm is thus lost. This new technique is compared with a commercially available instrument, and sensitivity limitations are discussed.

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Development of a cavity ringdown laser absorption spectrometer for detection of trace levels of mercury

Spuler¹,

Linne²,

Sappey³

et al. 2000

Appl. Opt.

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A potential new laser-based air pollution measurement technique, capable of measuring ultralow concentrations of urban air toxins in the field and in real time, is examined. Cavity ringdown laser absorption spectroscopy (CRLAS) holds promise as an air pollution monitor because it is a highly sensitive species detection technique that uses either pulsed or continuous tunable laser sources. The sensitivity results from an extremely long absorption path length and the fact that the quantity measured, the cavity decay time, is unaffected by fluctuations in the laser source. In laboratory experiments, we reach detection limits for mercury of the order of 0.50 parts per trillion. We developed a CRLAS system in our laboratory and measured Hg with the system, investigating issues such as background interference. We report experimental results for mercury detection limits, the dynamic range of the sensor, detection of Hg in an absorbing background of ozone and SO(2), and detection of a mercury-containing compound (HgCl(2) in this case).

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Field Testing of a Laser Heterodyne Radiometer for Detecting Methane Leaks

Sappey¹,

Masterson²,

Howell³

et al. 2022

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Andy Sappey

Fixed-frequency cavity ringdown diagnostic for atmospheric particulate matter

Development of a cavity ringdown laser absorption spectrometer for detection of trace levels of mercury

Field Testing of a Laser Heterodyne Radiometer for Detecting Methane Leaks

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