The Bremen mass spectrometric facility for the measurement of helium isotopes, neon, and tritium in water

We describe the mass spectrometric facility for measuring helium isotopes, neon, and tritium that has been operative at this institute since 1989, and also the sampling and sample preparation steps that precede the mass spectrometric analysis. For water samples in a near-equilibrium with atmospheric...

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Bibliographic Details
Published in:Isotopes in environmental and health studies 2009-06, Vol.45 (2), p.83-95
Main Authors: Sültenfuß, Jürgen, Roether, Wolfgang, Rhein, Monika
Format: Article
Language:English
Subjects:
Air
Helium - analysis
helium-3
hydrogeology
isotope measurement methods and equipment
Isotopes - analysis
Limit of Detection
Mass Spectrometry
neon
Neon - analysis
oceanography
tritium
Tritium - analysis
water
Water Pollution, Radioactive - analysis
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Summary:We describe the mass spectrometric facility for measuring helium isotopes, neon, and tritium that has been operative at this institute since 1989, and also the sampling and sample preparation steps that precede the mass spectrometric analysis. For water samples in a near-equilibrium with atmospheric air, the facility achieves precision for 3 He/ 4 He ratios of±0.4% or better, and±0.8 % or better for helium and neon concentrations. Tritium precision is typically±3 % and the detection limit 10 mTU (≈ 1.2·10 −3  Bq/kg of pure water). Sample throughputs can reach some thousands per year. These achievements are enabled, among other features, by automation of the measurement procedure and by elaborate calibration, assisted by continual development in detail. To date, we have measured more than 15,000 samples for tritium and 23,000 for helium isotopes and neon, mostly in the context of oceanographic and hydrologic work. Some results of such work are outlined. Even when atmospheric tritium concentrations have become rather uniform, tritium provides water ages if 3 He data are taken concurrently. The technique can resolve tritium concentrations in waters of the pre-nuclear era. † Updated paper: originally presented on the IAEA International Symposium "Quality Assurance for Analytical Methods in Isotope Hydrology" (August 2004, Vienna).
ISSN:1025-6016
1477-2639
DOI:10.1080/10256010902871929