http://www.nature.com/nature/podcast/index-2015-04-09.html Moon-making mystery

Researchers have been debating how the Moon formed for decades. Could a new simulation settle the affair?

• Research paper: Mastrobuono-Battisti et al.

• News and Views: An incredible likeness of being

  nature14333.pdf

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A primordial origin for the compositional similarity between the Earth and the Moon

Most of the properties of the Earth–Moon system can be explained by a collision between a planetary embryo (giant impactor) and the growing Earth late in the accretion process^{1, 2, 3}. Simulations show that most of the material that eventually aggregates to form the Moon originates from the impactor^{1, 4, 5}. However, analysis of the terrestrial and lunar isotopic compositions show them to be highly similar^{6, 7, 8, 9, 10, 11}. In contrast, the compositions of other Solar System bodies are significantly different from those of the Earth and Moon^{12, 13, 14}, suggesting that different Solar System bodies have distinct compositions. This challenges the giant impact scenario, because the Moon-forming impactor must then also be thought to have a composition different from that of the proto-Earth. Here we track the feeding zones of growing planets in a suite of simulations of planetary accretion¹⁵, to measure the composition of Moon-forming impactors. We find that different planets formed in the same simulation have distinct compositions, but the compositions of giant impactors are statistically more similar to the planets they impact. A large fraction of planet–impactor pairs have almost identical compositions. Thus, the similarity in composition between the Earth and Moon could be a natural consequence of a late giant impact.

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