Radiocarbon Analysis on the New AARAMS 1MV Tandetron

We report here on the radiocarbon performance on the AARAMS HVE 1MV Tandetron. 14C analysis is carried out in charge state 2+. We have avoided Li interference by appropriate settings of the high-energy electrostatic analyzer and the 30° second high-energy magnet. The 14C machine background is determ...

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Veröffentlicht in:	Radiocarbon 2017-06, Vol.59 (3), p.905-913
Hauptverfasser:	Olsen, Jesper, Tikhomirov, Dmitry, Grosen, Claus, Heinemeier, Jan, Klein, Matthias
Format:	Artikel
Sprache:	eng
Schlagworte:	Advances in Physical Measurement Techniques Current carriers Graphite Mass spectrometry Measurement techniques Nuclear reactors Ovens & stoves Physics Scientific imaging Temperature
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creator	Olsen, Jesper Tikhomirov, Dmitry Grosen, Claus Heinemeier, Jan Klein, Matthias
description	We report here on the radiocarbon performance on the AARAMS HVE 1MV Tandetron. 14C analysis is carried out in charge state 2+. We have avoided Li interference by appropriate settings of the high-energy electrostatic analyzer and the 30° second high-energy magnet. The 14C machine background is determined using unprocessed graphite, which yielded 58,650±2032 14C yr determined as the average and standard deviation of four measurements. International standards, which are used to monitor the long-term performance of the 14C measurements, agree with the reported consensus values.
doi_str_mv	10.1017/RDC.2016.85
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subjects	Advances in Physical Measurement Techniques Current carriers Graphite Mass spectrometry Measurement techniques Nuclear reactors Ovens & stoves Physics Scientific imaging Temperature
title	Radiocarbon Analysis on the New AARAMS 1MV Tandetron
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