Downloads provided by UsageCountsBarium isotopes in individual presolar silicon carbide grains from the Murchison meteorite
Copyright policy ) Maria Lugaro; Michael R. Savina; Roberto Gallino; Michael J. Pellin; Roy S. Lewis; C. Emil Tripa; C. Emil Tripa; +3 Authors
Maria Lugaro; Michael R. Savina; Roberto Gallino; Michael J. Pellin; Roy S. Lewis; C. Emil Tripa; C. Emil Tripa; Robert N. Clayton; Sachiko Amari; Andrew M. Davis;
Barium isotopes in individual presolar silicon carbide grains from the Murchison meteorite
Abstract Barium isotopic compositions of single 2.3–5.3 μm presolar SiC grains from the Murchison meteorite were measured by resonant ionization mass spectrometry. Mainstream SiC grains are enriched in s-process barium and show a spread in isotopic composition from solar to dominantly s-process. In the relatively coarse grain size fraction analyzed, there are large grain-to-grain variations of barium isotopic composition. Comparison of single grain data with models of nucleosynthesis in asymptotic giant branch (AGB) stars indicates that the grains most likely come from low mass carbon-rich AGB stars (1.5 to 3 solar masses) of about solar metallicity and with approximately solar initial proportions of r- and s-process isotopes. Measurements of single grains imply a wide variety of neutron-to-seed ratios, in agreement with previous measurements of strontium, zirconium and molybdenum isotopic compositions of single presolar SiC grains.
- University of Chicago United States
- University of Mary United States
- Space Sciences Laboratory United States
- University of Cambridge United Kingdom
- Argonne National Laboratory United States
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