A laser induced fluorescence instrument for measuring tropospheric NO/sub 2. Fong, C. & Brune, W., H. Review of Scientific Instruments, 68(11):4253-4262, 1997.
abstract   bibtex   
Nitrogen dioxide (NO/sub 2/), an essential gas in atmospheric chemistry, is almost always measured indirectly with just one technique: photolysis of NO/sub 2/ to NO, followed by detection of resulting NO. However, the photolysis introduces artifact signals that complicate the extraction of the NO/sub 2/ signal at low NO/sub 2/ volume mixing ratios. A new prototype instrument uses laser induced fluorescence to measure tropospheric NO/sub 2/ directly. The atmospheric fluorescence spectra measured with this instrument match the fluorescence spectra of NO/sub 2/ in a reference cell over the wavelength range 565.1-565.2 nm. This match indicates that fluorescence from other chemical species is not interfering with the measurements. The prototype's current detection limit is 280 parts per trillion (pptv) in 2.5 min with an absolute uncertainty of +or-15% (2 sigma confidence). This detection limit, which can be improved with better optical filtering and more laser power, is currently adequate for urban air conditions.
@article{
 title = {A laser induced fluorescence instrument for measuring tropospheric NO/sub 2},
 type = {article},
 year = {1997},
 keywords = {565.1 to 565.2 nm,Air pollution measurement,Artifact signals,Atmospheric chemistry,Atmospheric fluorescence spectra,Atmospheric spectra,Atmospheric techniques,Detection limit,Fluorescence,Fluorescence spectroscopy,Laser induced fluorescence instrument,Low volume mixing ratios,NO/sub 2/,Nitrogen compounds,Photolysis,Toxic pollutants,Troposphere,Tropospheric NO/sub 2/ measurement,Urban air conditions},
 pages = {4253-4262},
 volume = {68},
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 notes = {<b>From Duplicate 1 (<i>A laser induced fluorescence instrument for measuring tropospheric NO/sub 2</i> - Fong, C; Brune, W H)<br/></b><br/><b>From Duplicate 2 (<i>A laser induced fluorescence instrument for measuring tropospheric NO/sub 2</i> - Fong, C; Brune, W H)<br/></b><br/>Article<br/>Aip<br/>Access restricted.},
 abstract = {Nitrogen dioxide (NO/sub 2/), an essential gas in atmospheric chemistry, is almost always measured indirectly with just one technique: photolysis of NO/sub 2/ to NO, followed by detection of resulting NO. However, the photolysis introduces artifact signals that complicate the extraction of the NO/sub 2/ signal at low NO/sub 2/ volume mixing ratios. A new prototype instrument uses laser induced fluorescence to measure tropospheric NO/sub 2/ directly. The atmospheric fluorescence spectra measured with this instrument match the fluorescence spectra of NO/sub 2/ in a reference cell over the wavelength range 565.1-565.2 nm. This match indicates that fluorescence from other chemical species is not interfering with the measurements. The prototype's current detection limit is 280 parts per trillion (pptv) in 2.5 min with an absolute uncertainty of +or-15% (2 sigma confidence). This detection limit, which can be improved with better optical filtering and more laser power, is currently adequate for urban air conditions.},
 bibtype = {article},
 author = {Fong, C and Brune, W H},
 journal = {Review of Scientific Instruments},
 number = {11}
}

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