Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1181882 | Chinese Journal of Analytical Chemistry | 2015 | 7 Pages |
Sensitive high resolution ion microprobe (SHRIMP) IIe MC has been widely used in the oxygen isotopes analysis of zircon, apatite, calcium carbonate, etc. This study described the procedures for SHRIMP IIe MC high precision O-isotope analysis. We simulated the SHRIMP II secondary extraction system using SIMION and discussed the cause and influence factors of edge effect and X-Y effect in the oxygen isotopes analysis. Higher δ18O precision can be achieved by limiting O-isotope analysis positions to the central region about 10 mm in diameter of the sample mount and ensuring that the target surface roughness is less than 1 µm. The internal precision of single spot of zircon δ18O is better than 0.15‰ (1σ), with external precision better than 0.5% (95% confidence); the internal precision of the single analysis of Carbonate δ18O is better than 0.20‰ (1σ), with external precision better than 0.6‰ (95% confidence).
Graphical abstractA secondary extraction structure of SIMION simulation model was established to decipher the physical mechanism of edge and X-Y effect in the oxygen isotopes analysis of zircon, apatite, calcium carbonate, etc, by sensitive high resolution ion microprobe (SHRIMP) IIe MC. The results indicated that the detection precision of δ18O was improved by limiting O-isotope analysis positions to the central region about 10 mm in diameter of the sample mount and ensuring that the target surface roughness was less than 1 µm.Figure optionsDownload full-size imageDownload as PowerPoint slide