60Fe: A Heat Source for Planetary Differentiation from a Nearby Supernova Explosion

Details 60Fe: A Heat Source for Planetary Differentiation from a Nearby Supernova Explosion 60Fe: A Heat Source for Planetary Differentiation from a Nearby Supernova Explosion

May 2005

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2005apj...625..271m&link_type=abstract

The Astrophysical Journal, Volume 625, Issue 1, pp. 271-277.

Astronomy and Astrophysics

Astronomy

79

Ism: Dust, Extinction, Nuclear Reactions, Nucleosynthesis, Abundances, Solar System: Formation, Stars: Supernovae: General

Scientific paper

From a sample of the Semarkona (LL 3.0) ordinary chondrite we report the in situ discovery of 60Ni isotopic anomalies attributable to the decay of short-lived 60Fe (half-life 1.5 Myr) in the mineral phases troilite (FeS) and magnetite (Fe3O4). The troilite shows a 60Ni excesses of up to ~100 parts per thousand (‰) relative to its solar isotopic abundance. A positive correlation between 60Ni excesses and 56Fe/58Ni ratios provides evidence for live 60Fe in the early solar system. The inferred 60Fe/56Fe ratio of (0.92+/-0.24)×10-6 is the highest measured in any meteorite sample so far. This ratio is higher than predictions for production within asymptotic giant branch stars, but falls within the range expected for a Type II supernova source. This result is strongly suggestive of injection of freshly synthesized 60Fe into the nascent solar nebula by a nearby supernova explosion. Such a high abundance of 60Fe will exclude irradiation with solar energetic particles as the sole mechanism responsible for the production of short-lived radionuclides. It further shows that the decay of 60Fe was an important heat source for early planetary melting and differentiation and for keeping asteroids thermally active for much longer than would be possible from the decay of 26Al alone.

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