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Improved Sensitivity of Infrared Spectroscopy by the Application of Least Squares Methods

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Abstract:

Improved sensitivity and precision in the quantitative analysis of trace gases by Fourier transform infrared spectroscopy have been achieved by the application of new spectral least squares methods. By relating all of the spectral information present in the reference spectrum of a trace gas to that of the unknown sample and by appropriately fitting the baseline, detections of trace gases can be obtained even though the individual spectral features may lie well below the noise level. Four least squares methods incorporating different baseline assumptions were in vestigated and compared using calibrated gases of CO, N2O, and CO2 in dry air. These methods include: (I) baseline known, (II) baseline linear over the spectral region of interest, (III) baseline linear over each spectral peak, and (IV) negligible baseline shift between successive data points. Methods III and IV were found to be most reliable for the gases studied. When method III is applied to the spectra of these trace gases, detection limits improved by factors of 5 to 7 over conventional methods applied to the same data. "Three sigma" detection limits are equal to 0.6, 0.2, and 0.08 ppm for CO, N2O, and CO2, respectively, when a 10-cm pathlength at a total pressure of 640 Torr is used with a ∼35 min measurement time at 0.06 cm−1 resolution.

Keywords: Fourier transform infrared spectroscopy; Least squares methods; Quantitative infrared spectroscopy; Trace gas analysis

Document Type: Research Article

DOI: http://dx.doi.org/10.1366/0003702804731258

Affiliations: Sandia Laboratories, Albuquerque, New Mexico 87185

Publication date: September 1, 1980

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