No ^(70)Zn isotopic anomalies have been detected in primitive meteorites to a level of precision of less than

40 parts per million (2σ). Any pre-existing nucleosynthetic anomaly on ^(70)Zn was averaged out by mixing in

the solar nebula before planetary accretion in the solar system. Because neutron-rich nuclides ^(70)Zn and ^(60)Fe

are produced by similar nucleosynthetic processes in core-collapse supernovae, the homogeneity of ^(70)Zn in

meteorites limits the possible heterogeneity of extinct 60Fe radioactivity in the early solar system. Assuming

that Fe and Zn have not been decoupled during incorporation into the solar system, the homogeneity of the

^(70)Zn/^(64)Zn ratio measured here implies that the ^(60)Fe/^(56)Fe ratio was homogenized to less than 15% dispersion

before the formation of planetary bodies. The lack (Zn, Ni, Fe) or presence (Ti, Cr) of neutron-rich isotopic

anomalies in the iron mass region may be controlled by the volatility of presolar carriers in the nebula

Dauphas, Nicolas

Moynier, Frederic

Podosek, Frank A.

English

Caltech Authors - Main

A search for ^(70)Zn anomalies in meteorites

No 70Zn isotopic anomalies have been detected in primitive meteorites to a level of precision of less than 40 parts per million (2σ). Any pre-existing nucleosynthetic anomaly on 70Zn was averaged out by mixing in the solar nebula before planetary accretion in the solar system. Because neutron-rich nuclides 70Zn and 60Fe are produced by similar nucleosynthetic processes in core-collapse supernovae, the homogeneity of 70Zn in meteorites limits the possible heterogeneity of extinct 60Fe radioactivity in the early solar system. Assuming that Fe and Zn have not been decoupled during incorporation into the solar system, the homogeneity of the 70Zn/64Zn ratio measured here implies that the 60Fe/56Fe ratio was homogenized to less than 15% dispersion before the formation of planetary bodies. The lack (Zn, Ni, Fe) or presence (Ti, Cr) of neutron-rich isotopic anomalies in the iron mass region may be controlled by the volatility of presolar carriers in the nebula. © 2009. The American Astronomical Society.link_to_subscribed_fulltex

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The Astrophysical Journal

A search for 70Zn anomalies in meteorites

Handbook of Isotopes in the Cosmos, Hydrogen to Gallium (Cambridge: Cambridge Univ.

Lunar and Planetary Institute Conference Abstracts,

The Elements, their Isotopes in the Universe; Reports (A80-43401 18-90) Cointe-Ougree, Belgium, Universite de Liege,

https://authors.library.caltech.edu/15973/1/Moynier2009p5237Astrophys_J_Lett.pdf

A search for ^(70)Zn anomalies in meteorites

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