Add to ORKGWe report results from a field survey performed on a recently discovered impact field in the southwestern Egyptian desert, using a 270 MHz Ground-Penetrating Radar (GPR). This hyperarid region has significant similarities to the Martian heavily eroded mid-latitude cratered terrains in terms of crater density, size, and geomorphology. Profiles across small-buried craters revealed a coherent sequence of tilted layers constituting the cratonic infill resulting from aeolian deposits. In the intercrater areas the radargram revealed a poorly-defined subsurface stratigraphy and the presence of shallow structural elements associated with potential evidences of the consequences of the shock effects, i.e., faulting, fractures, and chaotic bedrock. Th...
There are abundant resources buried underground that are difficult to be investigated remotely. This...
Space-borne remote sensing imaging allows precise coverage of vast regions with basic data for geolo...
In this work, the ability of Ground Penetrating Radar (GPR) to detect rocks buried in composite soil...
International audienceWe report results from a field survey performed on a recently discovered impac...
We report results from a field survey performed on a recently discovered impact field in the southwe...
We report results from a 270 MHz GPR survey performed on a recently discovered impact field in the s...
In spite of the highly successful nature of recent planetary missions to the terrestrial planets and...
We present ground penetrating profiles of a number of relatively small buried craters of 30 to 100 m...
During November 2005, research teams from the Lunar and Planetary Institute (LPI), Southwest Researc...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/95485/1/jgre1563.pd
[1] Since their discovery, Martian pedestal craters have been interpreted as remnants of layers that...
This thesis explores water effects on terrestrial and Martian environments using ground penetrating ...
International audienceIn the coming decade, several missions are planned that will land on the surfa...
We detected more than 1000 crater structures in the Western Egyptian Desert, distributed over 40000 ...
The SHARAD (shallow radar) sounding radar on the Mars Reconnaissance Orbiter detects subsurface refl...
There are abundant resources buried underground that are difficult to be investigated remotely. This...
Space-borne remote sensing imaging allows precise coverage of vast regions with basic data for geolo...
In this work, the ability of Ground Penetrating Radar (GPR) to detect rocks buried in composite soil...
International audienceWe report results from a field survey performed on a recently discovered impac...
We report results from a field survey performed on a recently discovered impact field in the southwe...
We report results from a 270 MHz GPR survey performed on a recently discovered impact field in the s...
In spite of the highly successful nature of recent planetary missions to the terrestrial planets and...
We present ground penetrating profiles of a number of relatively small buried craters of 30 to 100 m...
During November 2005, research teams from the Lunar and Planetary Institute (LPI), Southwest Researc...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/95485/1/jgre1563.pd
[1] Since their discovery, Martian pedestal craters have been interpreted as remnants of layers that...
This thesis explores water effects on terrestrial and Martian environments using ground penetrating ...
International audienceIn the coming decade, several missions are planned that will land on the surfa...
We detected more than 1000 crater structures in the Western Egyptian Desert, distributed over 40000 ...
The SHARAD (shallow radar) sounding radar on the Mars Reconnaissance Orbiter detects subsurface refl...
There are abundant resources buried underground that are difficult to be investigated remotely. This...
Space-borne remote sensing imaging allows precise coverage of vast regions with basic data for geolo...
In this work, the ability of Ground Penetrating Radar (GPR) to detect rocks buried in composite soil...