Add to ORKGThe Earth and Moon have identical or very similar isotopic compositions for many elements, including tungsten. However, canonical models of the Moon-forming impact predict that the Moon should be made mostly of material from the impactor, Theia. Here we evaluate the probability of the Moon inheriting its Earth-like tungsten isotopes from Theia in the canonical giant impact scenario, using 242 N-body models of planetary accretion and tracking tungsten isotopic evolution, and find that this probability is <1.6-4.7%. Mixing in up to 30% terrestrial materials increases this probability, but it remains <10%. Achieving similarity in stable isotopes is also a low-probability outcome, and is controlled by different mechanisms than tungsten. T...
A new tungsten isotope study presents revised ages for the formation of the Moon. The Moon is though...
The origin of the Moon by a giant impact (1, 2) is the leading theory to explain multiple features o...
Measurements of the isotopic composition of tungsten (W) show that lunar samples and Martian meteori...
The Earth and Moon have identical or very similar isotopic compositions for many elements, including...
Tungsten isotopes between the Earth and Moon are compared in this new study. The authors find that t...
--- A distinct difference in tungsten isotopic composition between the Moon and Earth is consistent ...
Recent high-precision measurements of the isotopic composition of lunar rocks demonstrate that the b...
We couple the results of N-body simulations of late-stage accretion (O’Brien et al. 2006) to a hafni...
Characterization of the hafnium-tungsten systematics (Hf-182 decaying to W-182 and emitting two elec...
Physical simulations of the origin of the Moon have, until recently, centred on impact, about 100 M....
© The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attributi...
International audienceThe Moon forming giant impact marks the end of the main stage of ...
Recent high-precision measurements of the isotopic composition of lunar rocks demonstrate that the b...
The giant impact theory is the most widely recognized formation scenario of the Earth's Moon. Giant ...
AbstractThe giant impact theory is the most widely recognized formation scenario of the Earth's Moon...
A new tungsten isotope study presents revised ages for the formation of the Moon. The Moon is though...
The origin of the Moon by a giant impact (1, 2) is the leading theory to explain multiple features o...
Measurements of the isotopic composition of tungsten (W) show that lunar samples and Martian meteori...
The Earth and Moon have identical or very similar isotopic compositions for many elements, including...
Tungsten isotopes between the Earth and Moon are compared in this new study. The authors find that t...
--- A distinct difference in tungsten isotopic composition between the Moon and Earth is consistent ...
Recent high-precision measurements of the isotopic composition of lunar rocks demonstrate that the b...
We couple the results of N-body simulations of late-stage accretion (O’Brien et al. 2006) to a hafni...
Characterization of the hafnium-tungsten systematics (Hf-182 decaying to W-182 and emitting two elec...
Physical simulations of the origin of the Moon have, until recently, centred on impact, about 100 M....
© The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attributi...
International audienceThe Moon forming giant impact marks the end of the main stage of ...
Recent high-precision measurements of the isotopic composition of lunar rocks demonstrate that the b...
The giant impact theory is the most widely recognized formation scenario of the Earth's Moon. Giant ...
AbstractThe giant impact theory is the most widely recognized formation scenario of the Earth's Moon...
A new tungsten isotope study presents revised ages for the formation of the Moon. The Moon is though...
The origin of the Moon by a giant impact (1, 2) is the leading theory to explain multiple features o...
Measurements of the isotopic composition of tungsten (W) show that lunar samples and Martian meteori...