Uwe Wiechert scite author profile

We have determined the abundances of 16O, 17O, and 18O in 31 lunar samples from Apollo missions 11, 12, 15, 16, and 17 using a high-precision laser fluorination technique. All oxygen isotope compositions plot within +/-0.016 per mil (2 standard deviations) on a single mass-dependent fractionation line that is identical to the terrestrial fractionation line within uncertainties. This observation is consistent with the Giant Impact model, provided that the proto-Earth and the smaller impactor planet (named Theia) formed from an identical mix of components. The similarity between the proto-Earth and Theia is consistent with formation at about the same heliocentric distance. The three oxygen isotopes (delta17O) provide no evidence that isotopic heterogeneity on the Moon was created by lunar impacts.

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Oxygen isotope evidence for rapid mixing of the HED meteorite parent body

Wiechert

Halliday

Palme

et al. 2004

Earth and Planetary Science Letters

142

171

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Hydrated sub-arc mantle: a source for the Kluchevskoy volcano, Kamchatka/Russia

Dorendorf

Wiechert

Wörner

2000

Earth and Planetary Science Letters

160

152

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Uwe Wiechert

Oxygen Isotopes and the Moon-Forming Giant Impact

Oxygen isotope evidence for rapid mixing of the HED meteorite parent body

Hydrated sub-arc mantle: a source for the Kluchevskoy volcano, Kamchatka/Russia

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