Correlated cosmogenic W and Os isotopic variations in Carbo and implications for Hf–W chronology

Correlated cosmogenic W and Os isotopic variations in Carbo and implications for Hf–W chronology

An obstacle for establishing the chronology of iron meteorite formation using 182Hf–182W systematics (t1/2=8.9Myr) is to find proper neutron fluence monitors to correct for cosmic ray modification of W isotopic composition. Recent studies showed that siderophile elements such as Pt and Os could serv...

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Bibliographic Details
Published in:Geochimica et cosmochimica acta Vol. 153; pp. 91 - 104
Main Authors: Qin, Liping, Dauphas, Nicolas, Horan, Mary F., Leya, Ingo, Carlson, Richard W.
Format: Journal Article
Language:English
Published: Elsevier Ltd 15-03-2015
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Summary:An obstacle for establishing the chronology of iron meteorite formation using 182Hf–182W systematics (t1/2=8.9Myr) is to find proper neutron fluence monitors to correct for cosmic ray modification of W isotopic composition. Recent studies showed that siderophile elements such as Pt and Os could serve such a purpose. To test and calibrate these neutron dosimeters, the isotopic compositions of W and Os were measured in a slab of the IID iron meteorite Carbo. This slab has a well-characterized noble gas depth profile reflecting different degrees of shielding to cosmic rays. The results show that W and Os isotopic ratios correlate with distance from the pre-atmospheric center. Negative correlations, barely resolved within error, were found between ε190Os–ε189Os and ε186Os–ε189Os with slopes of −0.64±0.45 and −1.8(+1.9/−2.1), respectively. These Os isotope correlations broadly agree with model predictions for capture of secondary neutrons produced by cosmic ray irradiation and results reported previously for other groups of iron meteorites. Correlations were also found between ε182W–ε189Os (slope=1.02±0.37) and ε182W–ε190Os (slope=−1.38±0.58). Intercepts of these two correlations yield pre-exposure ε182W values of −3.32±0.51 and −3.62±0.23, respectively (weighted average ε182W=−3.57±0.21). This value relies on a large extrapolation leading to a large uncertainty but gives a metal–silicate segregation age of −0.5±2.4Myr after formation of the solar system. Combining the iron meteorite measurements with simulations of cosmogenic effects in iron meteorites, equations are presented to calculate and correct for cosmogenic effects on 182W using Os isotopes.
ISSN:0016-7037
1872-9533
DOI:10.1016/j.gca.2014.11.015