Abstract
Raman analyses of fluid inclusions can yield quantitative information on composition (from peak areas and heights) and density (from peak position and width). In this study, we examine the effect of instrumental spectral resolution on the ratios of these spectral parameters, and the selection of appropriate integration limits for the determination of peak areas in the CO<sub>2</sub>-CH<sub>4</sub>-N<sub>2</sub> system. Spectral resolution was varied from about 1 to 9 cm<sup>−1</sup> by co-varying the widths of all spectrometer slits. Changes in resolution produced a modest effect on peak-area ratios and a significant effect on peak-height ratios. Measured peak-width ratios varied strongly as a function of the spectral resolution. In addition, we observed a moderate shift in the measured peak position of N<sub>2</sub>, which can be related to the asymmetry of the band. These results indicate that accurate analysis requires careful attention to the selection of quantification factors, especially if the selected values were derived from studies at different spectral resolutions. Another factor that can have a significant effect on the calculated compositions of CH<sub>4</sub>- and H<sub>2</sub>-bearing fluid mixtures is the band broadening that occurs with increasing pressure.
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