The content of the long-lived isotope 41Ca in concrete samples obtained from the biological shield of a shut-down nuclear research reactor has been determined by diode-laser-based resonance ionization mass spectrometry (RIMS). Standard procedures were applied for the chemical separation of calcium. A radioactive tracer of 47Ca was used to determine the chemical yield. The total calcium concentration in the final nitric acid solution was measured by x-ray fluorescence (XRF) spectroscopy. The RIMS measurement yielded the abundance of 41Ca relative to the total calcium content with a detection limit of 5ยด10-10, limited by background effects at mass 41. The detection limit corresponds to a minimum detectable specific 41Ca activity of ~100 mBq/g in the concrete. Reproducibility and accuracy were determined with 41Ca spikes and found to be in the range of 15%, limited predominantly by ion counting statistics.
Revised: December 21, 2000 |
Published: December 1, 2000
Citation
Muller P., K. Blaum, B.A. Bushaw, S. Diel, C. Gepert, A. Nahler, and W. Nortershauser, et al. 2000.Trace Detection of 41Ca in Nuclear Reactor Concrete by Diode-laser-based Resonance Ionization Mass Spectrometry.Radiochimica Acta 88, no. 8:487-493.PNNL-SA-33312.