Add to ORKGA number of planetary objects exhibit large radar reflectivity and polarization ratios, and more recently, a similar behavior has been observed over a vast portion of the Earth's surface: the percolation facies of the Greenland Ice Sheet. Surface-based ranging radar data and snow stratigraphy studies demonstrated that the radar properties of that portion of Greenland are caused by enhanced scattering from massive, large, solid-ice bodies buried in the top few meters of the dry, cold, clean snowy surface of the ice sheet and created by seasonal melting and refreezing events. -from Autho
Abstract The flow of ice is temperature-dependent, but direct measurements of englacial temperature ...
Greenland Ice Sheet surface melting has increased since the 1990s, affecting the rheology and scatte...
Greenland Ice Sheet surface melting has increased since the 1990s, affecting the rheology and scatte...
In situ observations of microwave radar backscatter were made at Dye-2 in south-central Greenland in...
Satellite radar altimeters and scatterometers deployed over ice sheets experience backscatter from t...
Abstract — We obtained in-situ radar backscatter data at several sites on the Greenland Ice Sheet to...
Airborne radar images of part of the Greenland ice sheet reveal icy terrain whose radar properties a...
In June 1991, the NASA/Jett Propulsion Laboratory airborne SAR (AIRSAR) collected the first calibrat...
In situ observations of microwave radar backscatter were made at Dye-2 in south-central Greenland in...
Ground penetrating radar measurements performed on the Greenland ice sheet show internal reflectors,...
In June 1991, the NASA/Jet Propulsion Laboratory airborne synthetic-aperture radar (AIRSAR) instrume...
The flow of ice is temperature-dependent, but direct measurements of englacial temperature are spars...
Radar inference of the bulk properties of glacier beds, most notably identifying basal melting, is, ...
Ice-penetrating radar is a well-established tool for imaging the interior and the bed of an ice body...
Radar altimeters are one of the main tools for measuring elevation changes across the Antarctic and ...
Abstract The flow of ice is temperature-dependent, but direct measurements of englacial temperature ...
Greenland Ice Sheet surface melting has increased since the 1990s, affecting the rheology and scatte...
Greenland Ice Sheet surface melting has increased since the 1990s, affecting the rheology and scatte...
In situ observations of microwave radar backscatter were made at Dye-2 in south-central Greenland in...
Satellite radar altimeters and scatterometers deployed over ice sheets experience backscatter from t...
Abstract — We obtained in-situ radar backscatter data at several sites on the Greenland Ice Sheet to...
Airborne radar images of part of the Greenland ice sheet reveal icy terrain whose radar properties a...
In June 1991, the NASA/Jett Propulsion Laboratory airborne SAR (AIRSAR) collected the first calibrat...
In situ observations of microwave radar backscatter were made at Dye-2 in south-central Greenland in...
Ground penetrating radar measurements performed on the Greenland ice sheet show internal reflectors,...
In June 1991, the NASA/Jet Propulsion Laboratory airborne synthetic-aperture radar (AIRSAR) instrume...
The flow of ice is temperature-dependent, but direct measurements of englacial temperature are spars...
Radar inference of the bulk properties of glacier beds, most notably identifying basal melting, is, ...
Ice-penetrating radar is a well-established tool for imaging the interior and the bed of an ice body...
Radar altimeters are one of the main tools for measuring elevation changes across the Antarctic and ...
Abstract The flow of ice is temperature-dependent, but direct measurements of englacial temperature ...
Greenland Ice Sheet surface melting has increased since the 1990s, affecting the rheology and scatte...
Greenland Ice Sheet surface melting has increased since the 1990s, affecting the rheology and scatte...