Add to ORKGThe geologic histories of most terrestrial bodies are dominated by two major processes: meteorite bombardment and volcanism. The forms that the resulting impact craters and volcanic structures take can tell us a great deal about the ways in which these processes occur and about the environment of the host body at the time of their formation. The surfaces of bodies like Mercury and the Moon are old, however, and most such features formed more than a billion years in the past. Impact craters and volcanic structures are thus generally not visible in their original states, but instead in a form which has evolved over geologic time. In this work, I combine observations of planetary surfaces from spacecraft like MESSENGER and GRAIL with modern nu...
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formation of its lithosphere and crust. As in the case of the Moon, the origin of early plains depos...
High-resolution gravity data from the Gravity Recovery and Interior Laboratory (GRAIL) mission provi...
The first MESSENGER flyby of Mercury obtained images of 21% of the surface not seen by Mariner 10, i...
The geologic histories of most terrestrial bodies are dominated by two major processes: meteorite bo...
Impact bombardment during the first billion years after the formation of the Moon produced at least ...
The formation of large impact basins (diameter D ≥ 300 km) was an important process in the early geo...
Impact bombardment during the first billion years after the formation of the Moon produced at least ...
Impact cratering is a fundamental geologic process of our solar system. It competes with other proce...
Although the general morphologies of fresh mercurian and lunar craters are remarkably similar, compa...
We use satellite altitude free-air and terrain gravity correlations to differentiate regional variat...
© 2014 Elsevier B.V. Global maps of crustal thickness on the Moon, derived from gravity measurements...
Past exploration missions have revealed that the lunar topography is eroded through mass wasting pro...
International audienceAbstract The lunar cratering record is used to constrain the bombardment histo...
The Mariner 10 mission in 1974 mapped about half the surface of Mercury. On the basis of these data,...
Planetary gravity analyses have been limited historically to large-scale features associated with hi...
formation of its lithosphere and crust. As in the case of the Moon, the origin of early plains depos...
High-resolution gravity data from the Gravity Recovery and Interior Laboratory (GRAIL) mission provi...
The first MESSENGER flyby of Mercury obtained images of 21% of the surface not seen by Mariner 10, i...
The geologic histories of most terrestrial bodies are dominated by two major processes: meteorite bo...
Impact bombardment during the first billion years after the formation of the Moon produced at least ...
The formation of large impact basins (diameter D ≥ 300 km) was an important process in the early geo...
Impact bombardment during the first billion years after the formation of the Moon produced at least ...
Impact cratering is a fundamental geologic process of our solar system. It competes with other proce...
Although the general morphologies of fresh mercurian and lunar craters are remarkably similar, compa...
We use satellite altitude free-air and terrain gravity correlations to differentiate regional variat...
© 2014 Elsevier B.V. Global maps of crustal thickness on the Moon, derived from gravity measurements...
Past exploration missions have revealed that the lunar topography is eroded through mass wasting pro...
International audienceAbstract The lunar cratering record is used to constrain the bombardment histo...
The Mariner 10 mission in 1974 mapped about half the surface of Mercury. On the basis of these data,...
Planetary gravity analyses have been limited historically to large-scale features associated with hi...
formation of its lithosphere and crust. As in the case of the Moon, the origin of early plains depos...
High-resolution gravity data from the Gravity Recovery and Interior Laboratory (GRAIL) mission provi...
The first MESSENGER flyby of Mercury obtained images of 21% of the surface not seen by Mariner 10, i...
