Add to ORKGThe Mars pathfinder MET experiment will make pressure, temperature, and wind measurements on the surface of Mars. The Viking Lander Meteorology Experiment measurements were marked by the presence of variations associated with synoptic weather disturbances throughout the fall and winter season. Numerical simulations of the Mars atmospheric circulation show that the winter midlatitudes are the center of activity for traveling disturbances of planetary scale, disturbances that have their fundamental origin in the baroclinic instability of the wintertime Mars atmospheric circulation. The studies are consistent with Viking observations in that the disturbances decay in amplitude toward lower latitudes. The further north the Mars Pathfinder is lo...
We have characterized the near-surface martian wind environment as calculated with a set of numerica...
The first systematic observations of the middle atmosphere of Mars (35–80km) with the Mars Climate S...
We employed numerical modelling of the martian atmosphere, and our expertise in understanding martia...
The goal of the ASI/MET experiments is to extend our knowledge of Mars atmosphere structure and mete...
Introduction: Studies of the time series of surface measurements of wind, pressure and temperature a...
As on Earth, between late autumn and early spring on Mars middle and high latitudes within its atmos...
The Mars Pathfinder Meteorological Package (ASI/MET) will measure the local pressure, temperature, a...
A possible initiation mechanism for global dust storms was raised by describing a new analysis of wi...
InSight has been measuring atmospheric pressure, wind and temperature since December 10, 2018 (aroun...
Thermal infrared observations of Mars from spacecraft provide physical information about the upper t...
InSight landed < 550km from the Mars Science Laboratory rover. Both missions carried a suite of mete...
Numerical simulations of the Martian near-surface wind regime using a mesoscale atmospheric model ha...
The InSight lander landed at 135.62°E, 4.50°N in Elysium Planitia, less than 550km from the landing ...
One aspect of the seasonal pressure variations measured at the Viking Lander sites is their nearly p...
The first systematic observations of the middle atmosphere of Mars (35–80km) with the Mars Climate S...
We have characterized the near-surface martian wind environment as calculated with a set of numerica...
The first systematic observations of the middle atmosphere of Mars (35–80km) with the Mars Climate S...
We employed numerical modelling of the martian atmosphere, and our expertise in understanding martia...
The goal of the ASI/MET experiments is to extend our knowledge of Mars atmosphere structure and mete...
Introduction: Studies of the time series of surface measurements of wind, pressure and temperature a...
As on Earth, between late autumn and early spring on Mars middle and high latitudes within its atmos...
The Mars Pathfinder Meteorological Package (ASI/MET) will measure the local pressure, temperature, a...
A possible initiation mechanism for global dust storms was raised by describing a new analysis of wi...
InSight has been measuring atmospheric pressure, wind and temperature since December 10, 2018 (aroun...
Thermal infrared observations of Mars from spacecraft provide physical information about the upper t...
InSight landed < 550km from the Mars Science Laboratory rover. Both missions carried a suite of mete...
Numerical simulations of the Martian near-surface wind regime using a mesoscale atmospheric model ha...
The InSight lander landed at 135.62°E, 4.50°N in Elysium Planitia, less than 550km from the landing ...
One aspect of the seasonal pressure variations measured at the Viking Lander sites is their nearly p...
The first systematic observations of the middle atmosphere of Mars (35–80km) with the Mars Climate S...
We have characterized the near-surface martian wind environment as calculated with a set of numerica...
The first systematic observations of the middle atmosphere of Mars (35–80km) with the Mars Climate S...
We employed numerical modelling of the martian atmosphere, and our expertise in understanding martia...