Add to ORKGThe small obliquity of Mercury causes topographic depressions located near its poles to cast persistent shadows. Many [1, 9, 15] have shown these permanently shadowed regions (PSRs) may trap water ice for geologic time periods inside cold-traps. More recently, direct evidence for the presence of water ice deposits inside craters was remotely sensed in RADAR [5] and visible imagery [3]. Albedo measurements (reflectence at 1064 nm) obtained by the MErcury Space ENviroment GEochemistry and Ranging Laser Altimeter (MLA) found unusually bright and dark areas next to Mercury's north pole [7]. Using a thermal illumination model, Paige et al. [8] found the bright deposits are correlated with surface cold-traps, and the dark deposits are correlated ...
The low obliquity of Mercury and the Moon causes topographic depressions located near their poles to...
Recent radar observations of Mercury have detected strong depolarized echoes from the north and sout...
prevent direct sunlight from reaching substantial portions of its polar regions. Lacking major conve...
The Mercury Laser Altimeter (MLA) measured surface reflectance, r(sub s), at 1064 nm. On Mercury, mo...
Radar-bright features near Mercury's poles were discovered in Earth-based radar images and proposed ...
Earth-based radar observations revealed highly reflective deposits at the poles of Mercury [e.g., 1]...
Earth-based radar observations and results from the MESSENGER mission have provided strong evidence ...
Images obtained during the low‐altitude campaign in the final year of the MErcury Surface, Space ENv...
An estimate is made of the thickness of the radar-bright deposits in craters near to Mercury’s north...
Radar-bright deposits at the poles of Mercury are located in permanently shadowed regions, which pro...
Locations on Mercury that produce ice-like radar responses lie within impact craters that have very...
Evidence in radar, reflectance, and visible imagery indicates that surface and subsurface water ice ...
Measurements of surface reflectance of permanently shadowed areas near Mercury's north pole reveal r...
Earth-based radar images of Mercury show radar-bright material inside impact craters near the planet...
Planetary scientists have identified water ice and anomalously dark deposits within permanently shad...
The low obliquity of Mercury and the Moon causes topographic depressions located near their poles to...
Recent radar observations of Mercury have detected strong depolarized echoes from the north and sout...
prevent direct sunlight from reaching substantial portions of its polar regions. Lacking major conve...
The Mercury Laser Altimeter (MLA) measured surface reflectance, r(sub s), at 1064 nm. On Mercury, mo...
Radar-bright features near Mercury's poles were discovered in Earth-based radar images and proposed ...
Earth-based radar observations revealed highly reflective deposits at the poles of Mercury [e.g., 1]...
Earth-based radar observations and results from the MESSENGER mission have provided strong evidence ...
Images obtained during the low‐altitude campaign in the final year of the MErcury Surface, Space ENv...
An estimate is made of the thickness of the radar-bright deposits in craters near to Mercury’s north...
Radar-bright deposits at the poles of Mercury are located in permanently shadowed regions, which pro...
Locations on Mercury that produce ice-like radar responses lie within impact craters that have very...
Evidence in radar, reflectance, and visible imagery indicates that surface and subsurface water ice ...
Measurements of surface reflectance of permanently shadowed areas near Mercury's north pole reveal r...
Earth-based radar images of Mercury show radar-bright material inside impact craters near the planet...
Planetary scientists have identified water ice and anomalously dark deposits within permanently shad...
The low obliquity of Mercury and the Moon causes topographic depressions located near their poles to...
Recent radar observations of Mercury have detected strong depolarized echoes from the north and sout...
prevent direct sunlight from reaching substantial portions of its polar regions. Lacking major conve...