1 results match your criteria: "Northwest Institute of Nuclear Technology Xi'an Shaanxi 710024 PR China wangjiangfan@163.com lizhiming@nint.ac.cn.[Affiliation]"
Article Synopsis
- Isotope analysis of tin (Sn) is essential for geochemical studies and monitoring nuclear contamination, but common methods face challenges due to isobaric interference affecting accuracy.
- Laser resonance ionization mass spectrometry (LRIMS) offers a solution by overcoming these challenges, although it shows decreased detection efficiency with increasing Sn content from 1 μg to 4 μg and increased variability in results.
- To address these issues, electrodeposited Sn samples underwent heat treatment and were coated with titanium, leading to the creation of a highly efficient and stable Sn atomic beam source with promising applications.