Add to ORKGThe development of an in-situ geochronology capability for Mars and other planetary surfaces has the potential to fundamentally change our understanding of the evolution of terrestrial bodies in the Solar System. For Mars specifically, many of our most basic scientific questions about the geologic history of the planet require knowledge of the absolute time at which an event or process took place on its surface. For instance, what was the age and rate of early Martian climate change recorded in the mineralogy and morphology of surface lithologies (e.g., [1])? In-situ ages from a few select locations within the globally established stratigraphy of Mars would be transformative, enabling us to place direct chronologic constraints on the timing...
Absolute age determination is necessary to check and calibrate the relative Martian chronology prese...
Currently, the absolute chronology of Martian rocks, deposits and events is based mainly on crater c...
The key to understanding the history of planetary and asteroidal bodies is the accurate and precis...
The development of an in-situ geochronology capability for Mars and other planetary surfaces has the...
The development of an in-situ geochronology capability for Mars and other planetary surfaces has t...
We review the in situ geochronology experiments conducted by the Mars Science Laboratory mission's C...
Radiometric age dating of Martian rocks and surfaces at known locations for which crater densities c...
I examine two significant issues of martian science from the point of view of in situ measurements b...
The absolute chronology of Mars is poorly known and as a consequence a key science aim is to perform...
Geochronology is a fundamental measurement for planetary samples, providing the ability to establish...
We report new K-Ar isochron data for two approximately 380 Ma basaltic rocks, using an updated versi...
Following K-Ar dating of a mudstone and a sandstone, a third sample has been dated by the Curiosity ...
Crater counting is the only method used on Mars to give relative geochronological information but it...
In planetary exploration, in situ absolute geochronology is an important measurement. Thus far, on M...
The instrument 'Potassium (K) Argon Laser Experiment' (KArLE) is developed and designed for in situ ...
Absolute age determination is necessary to check and calibrate the relative Martian chronology prese...
Currently, the absolute chronology of Martian rocks, deposits and events is based mainly on crater c...
The key to understanding the history of planetary and asteroidal bodies is the accurate and precis...
The development of an in-situ geochronology capability for Mars and other planetary surfaces has the...
The development of an in-situ geochronology capability for Mars and other planetary surfaces has t...
We review the in situ geochronology experiments conducted by the Mars Science Laboratory mission's C...
Radiometric age dating of Martian rocks and surfaces at known locations for which crater densities c...
I examine two significant issues of martian science from the point of view of in situ measurements b...
The absolute chronology of Mars is poorly known and as a consequence a key science aim is to perform...
Geochronology is a fundamental measurement for planetary samples, providing the ability to establish...
We report new K-Ar isochron data for two approximately 380 Ma basaltic rocks, using an updated versi...
Following K-Ar dating of a mudstone and a sandstone, a third sample has been dated by the Curiosity ...
Crater counting is the only method used on Mars to give relative geochronological information but it...
In planetary exploration, in situ absolute geochronology is an important measurement. Thus far, on M...
The instrument 'Potassium (K) Argon Laser Experiment' (KArLE) is developed and designed for in situ ...
Absolute age determination is necessary to check and calibrate the relative Martian chronology prese...
Currently, the absolute chronology of Martian rocks, deposits and events is based mainly on crater c...
The key to understanding the history of planetary and asteroidal bodies is the accurate and precis...