Now showing items 1-3 of 3
Using the viscoelastic relaxation of large impact craters to study the thermal history of Mars.
(Elsevier Inc., 2016)
We simulate the long-term deformation of Martian craters and investigate the role of lower crustal flow in the evolution of surface and subsurface topography. Using the finite element method and a viscoelastic rheological ...
Morphology and Formation of Gully Features on Mars Using Mars Reconnaissance Orbiter Context Images
Studies of gully development on Mars have proposed that sources of erosive agents and formation mechanisms are attributed to subsurface liquid reservoir expulsions in which reservoir liquids emanate from a slope surface ...
Studying the Thermal and Structural Evolution of Planetary Bodies
The focus of this research is to study the thermal and structural evolution of three planetary bodies, Mars, Venus and the asteroid Vesta. The almost uniform spatial distribution of craters on the surfaces of planets makes ...