Optical Measurement of Radiocarbon below Unity Fraction Modern by Linear Absorption Spectroscopy

Fleisher, Adam J.; Long, David A.; Liu, Qingnan; Gameson, Lyn; Hodges, Joseph T.

doi:10.1021/acs.jpclett.7b02105

Cited by 58 publications

(50 citation statements)

References 36 publications

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“…A less complex cavity ring‐down system of Genoud et al using a commercially available quantum cascade laser with line width in the tens of MHz range achieved a sensitivity limit of ~40 M, which is of value for monitoring nuclear power plants and other industrial applications. McCartt et al, with a somewhat more complex spectrometer, have achieved a detection limit near 0.2M with 3‐mg sample size by cooling the sample to 250 K, and Fleisher et al have made other improvements to better determine backgrounds using 18‐mg samples at 220 K.…”

Section: Introductionmentioning

confidence: 99%

“…6 These methods, however, are not well suited to field or online measurements leading to recent research with laser-based techniques. [7][8][9][10][11] The extension of laser-based carbon isotope ratio analysis to radiocarbon, 14 C, was first proposed in 1981 12 but was not viable with the technology available at that time. This was because 14 C has a very low natural abundance, near 1 ppt, requiring both very narrow band lasers for specificity, as well as efficient detection mechanisms for enhanced sensitivity.…”

Section: Introductionmentioning

confidence: 99%

“…Examples are given in previous studies. 10,11,15 Further, the absorption spectra are based on transitions from the ground state. Interestingly, the CRDS work in 14 CO 2 could only be carried out recently due to technological advances on metrology and stabilization of continuously tunable extremely narrow band lasers over a relatively large wavelength range.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Laser‐based radiocarbon detection in the laboratory: How soon?

Murnick

2019

Labelled Comp Radiopharmac

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Research over the past 25 years and the use of accelerator mass spectrometry (AMS) have demonstrated benefits of single‐atom counting of 14C compared with scintillation monitoring of 14C radioactive decay for a multitude of applications in drug development studies. These include pharmacokinetics and metabolism studies, microdosing studies, and quantification of DNA adducts. In the last decade, the possibility of single‐atom counting using lasers has been demonstrated, providing the possibility of simplified laboratory‐based systems, which can equal or excel AMS sensitivity and provide scintillation system convenience without high levels of radioactivity. To achieve the required sensitivity, optical storage cavities have been used to enhance the laser interaction of the low densities of radiocarbon present. Two types of laser technologies have been used‐cavity ring‐down spectroscopy (CRDS) and intracavity opto‐galvanic spectroscopy (ICOGS). Problems to be overcome to achieve routine use have included separation of the 14C signal from backgrounds, achievement of acceptable precision and accuracy, reduction of measurement times for small samples, and improvement in the ease of use for the operator. Both technologies have achieved impressive results to date using samples of order 1 mg with CRDS and 10 μg with ICOGS. Commercial development is the next step.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Laser‐based radiocarbon detection in the laboratory: How soon?

Murnick

2019

Labelled Comp Radiopharmac

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“…However, complexity and high cost in AMS may prevent these studies from wide applications. In this context, cavity ring-down spectroscopy (CRDS) using a fundamental vibration absorption line of carbon dioxide in 4.5 μm has been proposed as a substitute for AMS [4][5][6][7][8]. 14 C analysis based on CRDS especially designed for biomedical samples in microdose study has been developed [9].…”

Section: Introductionmentioning

confidence: 99%

Background Noise Reduction in Mid-Infrared Cavity Ring-Down Spectroscopy for Radiocarbon Analysis

Terabayashi

Sonnenschein

Tomita

et al. 2019

Proceedings of the Second International Symposium on Radiation Detectors and Their Uses (ISRD2018)

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In cavity ring-down spectroscopy (CRDS), background noise caused by spurious reflective surfaces limits the sensitivity. This etaloning effect depends periodically on the laser frequency as well as the distance between the respective surfaces. In this work, Brewster spoiler is proposed as well as cavity temperature modulation. Suppression of baseline fluctuations in the system for 14 C analysis based on mid-infrared CRDS has been successfully demonstrated through several measurements of the spectrum baseline.

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“…Indeed, in recent years, a number of groups have published spectroscopic approaches for radiocarbon measurement. Detection limits approaching [8] and exceeding [9,10] ambient 14 C levels have been reported. However, at present, these techniques are restricted to laboratory use only.…”

Section: Introductionmentioning

confidence: 99%

Determining Biogenic Content of Biogas by Measuring Stable Isotopologues 12CH4, 13CH4, and CH3D with a Mid-Infrared Direct Absorption Laser Spectrometer

Kääriäinen

Richmond

Manninen

2018

Sensors

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A tunable laser absorption spectrometer (TLAS) was developed for the simultaneous measurement of δ13C and δD values of methane (CH4). A mid-infrared interband cascade laser (ICL) emitting around 3.27 µm was used to measure the absorption of the three most abundant isotopologues in CH4 with a single, mode-hop free current sweep. The instrument was validated against methane samples of fossil and biogenic origin with known isotopic composition. Three blended mixtures with varied biogenic content were prepared volumetrically, and their δ13C and δD values were determined. Analysis demonstrated that, provided the isotopic composition of the source materials was known, the δ13C and δD values alone were sufficient to determine the biogenic content of the blended samples to within 1.5%.

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Optical Measurement of Radiocarbon below Unity Fraction Modern by Linear Absorption Spectroscopy

Cited by 58 publications

References 36 publications

Laser‐based radiocarbon detection in the laboratory: How soon?

Laser‐based radiocarbon detection in the laboratory: How soon?

Background Noise Reduction in Mid-Infrared Cavity Ring-Down Spectroscopy for Radiocarbon Analysis

Determining Biogenic Content of Biogas by Measuring Stable Isotopologues 12CH4, 13CH4, and CH3D with a Mid-Infrared Direct Absorption Laser Spectrometer

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