Impact at a glance
Challenge
Current methods for analysing strontium-90 are slow, labour-intensive and costly, creating a barrier to efficient nuclear decommissioning.
Solution
Apply Collinear Resonance Ionisation Spectroscopy (CRIS) to deliver rapid, highly selective analysis of strontium-90 in complex environmental samples.
Potential impact
Faster and more cost-effective waste characterisation, improved environmental monitoring and reduced risk management costs during decommissioning.
Background
The easy incorporation of certain radionuclides into the biosphere renders their determination a key issue in decommissioning.
The classification and quantitation of decommissioning waste materials can be challenging especially if the sample is complex.
High throughput elemental analysis techniques often lack the sensitivity and selectivity required for some radionuclides such as strontium-90.
As future decommissioning increases, the potential demand for rapid screening, quantitation, remediation and verification of 90Sr in environmental samples at very low levels will also increase.
Challenge
- A novel analytical platform is required for the cost-effective analysis of 90Sr with a fast turnaround time.
- As future decommissioning increases the potential demand for rapid screening, quantitation, remediation and verification of 90Sr in environmental samples at very low levels will also increase.
- The current Cherenkov counting method available for the 90Sr determination is slow (20-30 days), labour and cost expensive.
Solution
Collinear resonance ionisation spectroscopy (CRIS) offers the solution combining high resolution spectroscopy with high sensitivity ion detection.
Lasers are used to probe the hyperfine structure of the atom of interest, initially employed at CERN to determine the fundamental properties of exotic nuclei. The method efficiently reduces interference species by a factor of more than hundred million (such as 90Zr).
Further development of the CRIS technique at Manchester is being applied to ultra-trace elemental analysis and low abundance isotope ratio mass spectrometry applications such as radiocarbon dating.
This work has resulted in the spinout company Artemis Analytical which has recently secured a grant for a PhD student in collaboration with the NDA.
Benefits
- The use of CRIS combined with ICP-MS allows the rapid quantitation of 90Sr and offers a strategic advantage in terms of understanding its mobility, diminution and control within the environment.
- A comprehensive scientific and technical understanding of 90Sr distribution is of immense value in reducing the costs associated with the risk management of decontamination.
- The universal benefits of CRIS lies in the fact that it can be applied to any element on the periodic table with unrivalled sensitivity and selectivity.
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Decommissioning and waste
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