Add to ORKGThe capability of scientific instrumentation flown on planetary orbiters and landers has made great advances since the signature Viking mission of the seventies. At some point, however, the science return from orbital remote sensing, and even in situ measurements, becomes incremental, rather than revolutionary. This is primarily caused by the low spatial resolution of such measurements, even for landed instrumentation, the incomplete mineralogical record derived from such measurements, the inability to do the detailed textural, mineralogical and compositional characterization needed to demonstrate equilibrium or reaction paths, and the lack of chronological characterization. For the foreseeable future, flight instruments will suffer from th...
A Mars Rover/Sample Return (MRSR) mission is currently being studied for the late 1990's. The object...
Currently, the absolute chronology of Martian rocks, deposits and events is based mainly on crater c...
Based on meteoritic evidence, Mars accreted as early as 2 Ma after the formation of the first solids...
The 2011 Visions & Voyages Planeary Science Decadal Survey identified making significant progress to...
Martian magnetic history; quarantine issues; surface modifying processes; climate and atmosphere; sa...
Sending a mission to Mars to collect samples and return them to the Earth for analysis is without do...
The international Mars Exploration community has been planning to return samples from Mars for many ...
A mission designed to collect and return samples from Mars will provide information regarding its co...
I examine two significant issues of martian science from the point of view of in situ measurements b...
The advantage of studying returned planetary samples cannot be overstated. A wider range of analytic...
Although a tremendous amount of knowledge can be obtained by in situ experiments on Mars, greater be...
NASA's CheMin instrument, the first X-ray Diffractometer flown in space, has been operating on Mars ...
The complexity of the U.S. Sample Return Mission is ultimately dependent on current mission funding ...
© The Meteoritical Society, 2019. Executive Summary: Return of samples from the surface of Mars has ...
For reasons defined elsewhere it is reasonable to search for biological signatures, both chemical an...
A Mars Rover/Sample Return (MRSR) mission is currently being studied for the late 1990's. The object...
Currently, the absolute chronology of Martian rocks, deposits and events is based mainly on crater c...
Based on meteoritic evidence, Mars accreted as early as 2 Ma after the formation of the first solids...
The 2011 Visions & Voyages Planeary Science Decadal Survey identified making significant progress to...
Martian magnetic history; quarantine issues; surface modifying processes; climate and atmosphere; sa...
Sending a mission to Mars to collect samples and return them to the Earth for analysis is without do...
The international Mars Exploration community has been planning to return samples from Mars for many ...
A mission designed to collect and return samples from Mars will provide information regarding its co...
I examine two significant issues of martian science from the point of view of in situ measurements b...
The advantage of studying returned planetary samples cannot be overstated. A wider range of analytic...
Although a tremendous amount of knowledge can be obtained by in situ experiments on Mars, greater be...
NASA's CheMin instrument, the first X-ray Diffractometer flown in space, has been operating on Mars ...
The complexity of the U.S. Sample Return Mission is ultimately dependent on current mission funding ...
© The Meteoritical Society, 2019. Executive Summary: Return of samples from the surface of Mars has ...
For reasons defined elsewhere it is reasonable to search for biological signatures, both chemical an...
A Mars Rover/Sample Return (MRSR) mission is currently being studied for the late 1990's. The object...
Currently, the absolute chronology of Martian rocks, deposits and events is based mainly on crater c...
Based on meteoritic evidence, Mars accreted as early as 2 Ma after the formation of the first solids...