Automated NanoSIMS Measurements of Spinel Stardust from the Murray Meteorite

TL;DR

This study uses automated NanoSIMS measurements to analyze presolar spinel grains from the Murray meteorite, revealing their stellar origins and identifying grains from novae and supernovae with unique isotopic signatures.

Contribution

First application of automated NanoSIMS to measure isotopic compositions of presolar spinel grains, uncovering grains from extreme stellar environments.

Findings

Most grains are typical presolar oxides from giant stars.

Identification of grains with isotopic signatures of novae and supernovae.

Detection of Mg and O isotopic anomalies in some grains.

Abstract

We report new O isotopic data on 41 presolar oxide grains, 38 MgAl2O4 (spinel) and 3 Al2O3 from the CM2 meteorite Murray, identified with a recently developed automated measurement system for the NanoSIMS. We have also obtained Mg-Al isotopic results on 29 of the same grains (26 spinel and 3 Al2O3). The majority of the grains have O isotopic compositions typical of most presolar oxides, fall well into the four previously defined groups, and are most likely condensates from either red giant branch or asymptotic giant branch stars. We have also discovered several grains with more unusual O and Mg compositions suggesting formation in extreme astrophysical environments, such as novae and supernovae. One of these grains has massive enrichments in 17O, 25Mg, and 26Mg, which are isotopic signatures indicative of condensation from nova ejecta. Two grains of supernova origin were also discovered: one has a large 18O/16O ratio typical of Group 4 presolar oxides; another grain is substantially enriched in 16O, and also contains radiogenic 44Ca from the decay of 44Ti, a likely condensate from material originating in the O-rich inner zones of a Type II supernova. In addition, several Group 2 presolar spinel grains also have large 25Mg and 26Mg isotopic anomalies that are difficult to explain by standard nucleosynthesis in low-mass stars. Auger elemental spectral analyses were performed on the grains and qualitatively suggest that presolar spinel may not have higher-than- stoichiometric Al/Mg ratios, in contrast to SIMS results obtained here and reported previously.