A working hypothesis of Mercury's history is presented. We infer the surface of Mercury to record a sequence of events broadly similar to those recorded on the moon, implying similar histories of impact bombardment. The oldest terrain so n Mercury seem to be better preserved from modification by ejecta from subsequently formed impact basins because of higher surface gravity. The large lunarlike impact craters on Mercury can be interpreted as part of a distinct episode of bombardment which may have affected all the terrestrial planets about 4 b.y. ago. The light cratering accumulated on the surfaces of the Mercurian smooth plains is similar in diameter/frequency relationship to that of the lunar maria and of the oldest Martian plains units,...
Mercury's images obtained by the 1974 Mariner 10 flybys show extensive cratered landscapes degraded ...
There has been extensive debate about whether Mercury's smooth plains are volcanic features or impac...
The formation of large impact basins (diameter D ≥ 300 km) was an important process in the early geo...
A working hypothesis of Mercury's history is presented. We infer the surface of Mercury to record a ...
The Mariner 10 mission in 1974 mapped about half the surface of Mercury. On the basis of these data,...
The morphology and optical properties of the surface of Mercury resemble those of the Moon in remark...
Prior to the flight of the Mariner 10 spacecraft, Mercury was the least investigated and most poorly...
The formation of large impact basins (diameter D greater than or equal to 300 km) was an important p...
The first MESSENGER flyby of Mercury obtained images of 21% of the surface not seen by Mariner 10, i...
formation of its lithosphere and crust. As in the case of the Moon, the origin of early plains depos...
The various origins proposed for intercrater plains on Mercury and the Moon lead to divergent therma...
Although the general morphologies of fresh mercurian and lunar craters are remarkably similar, compa...
The history of volcanism on Mercury is almost the entire history of the formation of its crust. Ther...
Orbital images from the MESSENGER spacecraft show that ~27% of Mercury's surface is covered by smoot...
Volcanic and tectonic implications of the surface morphology of Mercury are addressed in two separat...
Mercury's images obtained by the 1974 Mariner 10 flybys show extensive cratered landscapes degraded ...
There has been extensive debate about whether Mercury's smooth plains are volcanic features or impac...
The formation of large impact basins (diameter D ≥ 300 km) was an important process in the early geo...
A working hypothesis of Mercury's history is presented. We infer the surface of Mercury to record a ...
The Mariner 10 mission in 1974 mapped about half the surface of Mercury. On the basis of these data,...
The morphology and optical properties of the surface of Mercury resemble those of the Moon in remark...
Prior to the flight of the Mariner 10 spacecraft, Mercury was the least investigated and most poorly...
The formation of large impact basins (diameter D greater than or equal to 300 km) was an important p...
The first MESSENGER flyby of Mercury obtained images of 21% of the surface not seen by Mariner 10, i...
formation of its lithosphere and crust. As in the case of the Moon, the origin of early plains depos...
The various origins proposed for intercrater plains on Mercury and the Moon lead to divergent therma...
Although the general morphologies of fresh mercurian and lunar craters are remarkably similar, compa...
The history of volcanism on Mercury is almost the entire history of the formation of its crust. Ther...
Orbital images from the MESSENGER spacecraft show that ~27% of Mercury's surface is covered by smoot...
Volcanic and tectonic implications of the surface morphology of Mercury are addressed in two separat...
Mercury's images obtained by the 1974 Mariner 10 flybys show extensive cratered landscapes degraded ...
There has been extensive debate about whether Mercury's smooth plains are volcanic features or impac...
The formation of large impact basins (diameter D ≥ 300 km) was an important process in the early geo...