1998
DOI: 10.1088/0026-1394/35/1/2
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Measuring amount ratios of gas isotopes by two primary methods

Abstract: Procedures developed for accurate measurement of amount of substance ratios for gas isotopes, as used to improve our knowledge of the Avogadro constant and checked for quantitative conformity against kinetic gas theory, were used to measure synthetic mixtures of enriched xenon gas isotopes, prepared by (micro)-gravimetry as is usual in the preparation of synthetic gas compound mixtures. This allowed a totally independent evaluation, on the same samples, of the relative combined standard uncertainty of (a) the … Show more

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Cited by 19 publications
(11 citation statements)
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“…The mass fractionation line is calculated with respect to the Xe isotope reference gas IRMM-2000 [25] on which the currently recommended molar mass [3] is based. The other data are taken from the literature: Nier 1950 [26]; IRMM, 1994 [27]; IRMM L'Air Liquide 1998 [28]; Podosek et al 1971 [29]; Basford et al 1973 [30]; Nief NBS-104 and Dibeler NBS-104 [31]; Khynhov, 1989, as cited in [16], and Hill and Steele [16] cannot be ruled out. Assuming that this apparent isotopic variability is real, and a sensitivity of 0.75 mK·mol·g −1 derived above, this corresponds to variability in the Xe TP of only 21 µK.…”
Section: Xenonmentioning
confidence: 99%
“…The mass fractionation line is calculated with respect to the Xe isotope reference gas IRMM-2000 [25] on which the currently recommended molar mass [3] is based. The other data are taken from the literature: Nier 1950 [26]; IRMM, 1994 [27]; IRMM L'Air Liquide 1998 [28]; Podosek et al 1971 [29]; Basford et al 1973 [30]; Nief NBS-104 and Dibeler NBS-104 [31]; Khynhov, 1989, as cited in [16], and Hill and Steele [16] cannot be ruled out. Assuming that this apparent isotopic variability is real, and a sensitivity of 0.75 mK·mol·g −1 derived above, this corresponds to variability in the Xe TP of only 21 µK.…”
Section: Xenonmentioning
confidence: 99%
“…Calibrated (or 'absolute') isotope ratio measurements are cumbersome because they require either special mass spectrometers or careful calibration using synthetic mixtures of essentially pure isotopes (Aregbe et al, 1998). Assonov and Brenninkmeijer (2003b) avoided performing such calibrated isotope ratio measurements, using a similar approach as previous authors (Santrock et al, 1985;Li et al, 1988a): They redetermined the 17 O/ 16 O isotope ratio of VPDB-CO 2 ''on the scale of" its 13 C/ 12 C isotope ratio.…”
Section: Introductionmentioning
confidence: 99%
“…Some of these difficulties have been overcome by the use of the ‘isotope dilution curve’ method,5 which uses two reference blends prepared by diluting a pure sample of the same substance as the unknown with the highly enriched spike. However, published applications of IDMS to gas analysis6–8 have made use of mass spectrometers using dual‐inlets to provide very precisely controlled conditions for the input of the analytes to the analyser. The method would find wider application if it could be used with a gas chromatograph at the input to separate the analyte from the matrix prior to the mass spectrometric analysis 9,10.…”
mentioning
confidence: 99%