The Radiocarbon Intracavity Optogalvanic Spectroscopy Setup at Uppsala

Eilers, Gerriet; Persson, Anders; Gustavsson, Cecilia; Ryderfors, Linus; Mukhtar, Emad; Possnert, Göran; Salehpour, Mehran

doi:10.1017/s0033822200057349

Cited by 12 publications

(52 citation statements)

References 17 publications

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“…We have not been able to reproduce the reported results concerning the OG signals dependence on 14 C concentration and wavelength, and, ultimately, not seen any evidence of the capability of ICOGS to unambiguously detect 14 C at all. Instead, we have found indications that the reported results can be products of measurement uncertainties and mistakes.…”

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confidence: 74%

“…Employing AMS for analysis of samples of blood, urine, breath, tissue, biopsies etc., looking for the C 14 labeled molecules and their metabolites, the distribution, absorption and elimination of the drug in the body can be studied.…”

mentioning

confidence: 99%

“…MATERIALS AND METHODS. The experimental setup in our laboratory has been thoroughly described in a previous publication 14 . The schematic of the setup is described in Figure 1.…”

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confidence: 99%

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Evaluation of Intracavity Optogalvanic Spectroscopy for Radiocarbon Measurements

et al. 2013

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Ever since the first publication of intracavity optogalvanic spectroscopy (ICOGS) in 2008, this novel technique for measuring the 14C/12C ratio in carbon dioxide has rendered considerable attention. As a result, there are currently at least five different research groups pursuing research on ICOGS. With a claimed limit of detection of 10–15 (14C/12C), i.e., in the same order as accelerator mass spectroscopy, achieved with a relatively inexpensive and uncomplicated table-top system, ICOGS has major scientific and commercial implications. However, during the past 5 years, no research group has been able to reproduce these results or present additional proof for ICOGS’s capability of unambiguous 14C detection, including the authors of the original publication. Starting in 2010, our group has set up a state-of-the-art ICOGS laboratory and has investigated the basic methodology of ICOGS in general and tried to reproduce the reported experiments in particular. We have not been able to reproduce the reported results concerning the optogalvanic signals dependence on 14C concentration and wavelength and, ultimately, not seen any evidence of the capability of ICOGS to unambiguously detect 14C at all. Instead, we have found indications that the reported results can be products of measurement uncertainties and mistakes. Furthermore, our results strongly indicate that the reported limit of detection is likely to be overestimated by at least 2 orders of magnitude, based on the results presented in the original publication. Hence, we conclude that the original reports on ICOGS cannot be confirmed and therefore must be in error.

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confidence: 99%

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Evaluation of Intracavity Optogalvanic Spectroscopy for Radiocarbon Measurements

et al. 2013

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“…In spite of extensive efforts at the following five sites around the world, the original data still remains unconfirmed: 1) Murnick's group at Rutgers University, 2) Professor Meijer's group at the Energy and Sustainability Research Institute Groningen at University of Groningen, 3) Professor Lackner's group at the Department of Earth and Environmental Engineering at Columbia University, 4) our group at the Department of Physics and Astronomy at Uppsala University, and 5) the company Planetary Emission Management Inc., Beltsville, MD, USA. On the contrary, a number of publications have seriously questioned the scientific validity of the original report [2][3][4][5][6] .…”

Section: Uppsala Swedenmentioning

confidence: 99%

“…Most importantly, it fills a void in the aggregated literature on ICOGS [1][2][3][4][5][6] , namely the study of highly enriched 14 CO 2 samples. Hence, it is an important contribution to the field, and well worthy of publication in Analytical Chemistry.…”

Section: Uppsala Swedenmentioning

confidence: 99%