Add to ORKGThe flow law determined experimentally for solid CO2 establishes that an hypothesis of glacial flow of CO2 at the Martian poles is not physically unrealistic. Compression experiments carried out under 1 atmosphere pressure and constant strain rate conditions demonstrate that the strength of CO2 near its sublimation point is considerably less than the strength of water ice near its melting point. A plausible glacial model for the Martian polar caps was constructed. The CO2 deposited near the pole would have flowed outward laterally to relieve high internal shear stresses. The topography of the polar caps, and the uniform layering and general extent of the layered deposits were explained using this model
The martian Residual South Polar Cap (RSPC) is a 1-10 m thick deposit of permanent CO_2 ice perched ...
Vast amounts of solid CO2 reside in topographic basins of the south polar layered deposits (SPLD) on...
Mars’ polar caps are – depending on hemisphere and season - partially or totally covered...
The flow law determined experimentally for solid CO2 establishes that a hypothesis of glacial flow o...
The flow law determined experimental ly for solid CO2 establishes that a hypo-thesis of glacial flow...
At high obliquity, Martian polar ground temperatures could exceed the melting point of ice for consi...
The residual frost caps of Mars are probably water-ice. They may be the source of the water vapor as...
Massive, kilometer thick deposits of carbon dioxide (CO2) ice have been detected at the south polar ...
The discovery of buried carbon dioxide (CO2) ice between water (H2O) ice layers within the martian s...
The Martian polar layered deposits constitute a detailed record of geologically recent environmental...
[1] The surfaces of the Martian north and south polar residual caps are marked by unusual ice featur...
Leighton and Murray have argued that there is a polar reservoir of solid CO_2 on Mars that lasts thr...
Leighton and Murray have argued that there is a polar reservoir of solid CO_2 on Mars that lasts thr...
Martian polar science began almost as soon as small telescopes were trained on the planet. The seaso...
Carbon dioxide is Mars’ primary atmospheric constituent and is an active driver of Martian surface e...
The martian Residual South Polar Cap (RSPC) is a 1-10 m thick deposit of permanent CO_2 ice perched ...
Vast amounts of solid CO2 reside in topographic basins of the south polar layered deposits (SPLD) on...
Mars’ polar caps are – depending on hemisphere and season - partially or totally covered...
The flow law determined experimentally for solid CO2 establishes that a hypothesis of glacial flow o...
The flow law determined experimental ly for solid CO2 establishes that a hypo-thesis of glacial flow...
At high obliquity, Martian polar ground temperatures could exceed the melting point of ice for consi...
The residual frost caps of Mars are probably water-ice. They may be the source of the water vapor as...
Massive, kilometer thick deposits of carbon dioxide (CO2) ice have been detected at the south polar ...
The discovery of buried carbon dioxide (CO2) ice between water (H2O) ice layers within the martian s...
The Martian polar layered deposits constitute a detailed record of geologically recent environmental...
[1] The surfaces of the Martian north and south polar residual caps are marked by unusual ice featur...
Leighton and Murray have argued that there is a polar reservoir of solid CO_2 on Mars that lasts thr...
Leighton and Murray have argued that there is a polar reservoir of solid CO_2 on Mars that lasts thr...
Martian polar science began almost as soon as small telescopes were trained on the planet. The seaso...
Carbon dioxide is Mars’ primary atmospheric constituent and is an active driver of Martian surface e...
The martian Residual South Polar Cap (RSPC) is a 1-10 m thick deposit of permanent CO_2 ice perched ...
Vast amounts of solid CO2 reside in topographic basins of the south polar layered deposits (SPLD) on...
Mars’ polar caps are – depending on hemisphere and season - partially or totally covered...