Add to ORKGGiven their range of volatilities, alkali elements are potential tracers of temperature-dependent processes during planetary accretion and formation of the Earth-Moon system. Under the giant impact hypothesis, no direct connection between the composition of the Moon and the Earth is required, and proto-lunar material does not necessarily experience high temperatures. Models calling for multiple collisions with smaller planetesimals derive proto-lunar materials mainly from the Earth's mantle and explicitly invoke vaporization, shock melting and volatility-related fractionation. Na/K, K/Rb, and Rb/Cs should all increase in response to thermal volatization, so theories which derive the Moon substantially from Earth's mantle predict these ratio...
The process of lunar magma ocean solidification provides crucial constraints on the composition and ...
A new combined rhenium-osmium– and platinum-group element data set for basalts from the Moon establi...
We re-examine the conditions at which core formation in the Moon may have occurred by linking the ob...
Moderately volatile elements (MVEs) are depleted and isotopically fractionated in the Moon relative ...
The volatile elements (e.g., Rb, Pb, Tl, Bi, Cs) seem to have been depleted at the time of lunar hid...
Highly volatile elements [condensation temperatures below about 700 K] and water are highly informat...
The following facts were uncovered in comparing the basaltic surface rocks of the moon with terrestr...
Many of the properties of the moon are discussed including the enrichment in Ca, Al, Ti, U, Th, Ba, ...
The formation of the Moon is thought to be the result of a giant impact between a Mercury-to-proto-E...
The compositional and isotopic similarity of Earths primitive upper mantle (PUM) and the Moon has bo...
The Moon and Earth are generally similar in terms of composition, but there exist variations in the ...
Recent geochemical and geophysical data from the Moon enable a revision of earlier interpretations r...
Rb and Sr isotopic data and other chemical data indicate major lunar differentiation at about 4.6 AE...
It is generally considered that the outer portion of the Moon was molten in its early history. Antar...
The accretion during condensation mechanism is used to explain the differences in composition of the...
The process of lunar magma ocean solidification provides crucial constraints on the composition and ...
A new combined rhenium-osmium– and platinum-group element data set for basalts from the Moon establi...
We re-examine the conditions at which core formation in the Moon may have occurred by linking the ob...
Moderately volatile elements (MVEs) are depleted and isotopically fractionated in the Moon relative ...
The volatile elements (e.g., Rb, Pb, Tl, Bi, Cs) seem to have been depleted at the time of lunar hid...
Highly volatile elements [condensation temperatures below about 700 K] and water are highly informat...
The following facts were uncovered in comparing the basaltic surface rocks of the moon with terrestr...
Many of the properties of the moon are discussed including the enrichment in Ca, Al, Ti, U, Th, Ba, ...
The formation of the Moon is thought to be the result of a giant impact between a Mercury-to-proto-E...
The compositional and isotopic similarity of Earths primitive upper mantle (PUM) and the Moon has bo...
The Moon and Earth are generally similar in terms of composition, but there exist variations in the ...
Recent geochemical and geophysical data from the Moon enable a revision of earlier interpretations r...
Rb and Sr isotopic data and other chemical data indicate major lunar differentiation at about 4.6 AE...
It is generally considered that the outer portion of the Moon was molten in its early history. Antar...
The accretion during condensation mechanism is used to explain the differences in composition of the...
The process of lunar magma ocean solidification provides crucial constraints on the composition and ...
A new combined rhenium-osmium– and platinum-group element data set for basalts from the Moon establi...
We re-examine the conditions at which core formation in the Moon may have occurred by linking the ob...