Add to ORKGWe report new K-Ar isochron data for two approximately 380 Ma basaltic rocks, using an updated version of the Potassium-Argon Laser Experiment (KArLE). These basalts have K contents comparable to lunar KREEP basalts or igneous lithologies found by Mars rovers, whereas previous proof-of-concept studies focused primarily on more K-rich rocks. We continue to measure these analogue samples to show the advancing capability of in situ K-Ar geochronology. KArLE is applicable to other bodies including the Moon or asteroids
The development of an in-situ geochronology capability for Mars and other planetary surfaces has the...
International audienceAbsolute dating is needed to check and calibrate the relative Martian chronolo...
Sur Mars, la datation par comptage de densité de cratères est actuellement la seule méthode utilisée...
We report new K-Ar isochron data for two approximately 380 million-years-old basaltic rocks, using ...
Geochronology is a fundamental measurement for planetary samples, providing the ability to establish...
Absolute dating of planetary samples is an essential tool to establish the chronology of geological ...
The instrument 'Potassium (K) Argon Laser Experiment' (KArLE) is developed and designed for in situ ...
In planetary exploration, in situ absolute geochronology is one of the main important measurements t...
The Potassium (K) - Argon (Ar) Laser Experiment (KArLE) will make in situ noble-gas geochronology me...
If extinct and/or extant life is discovered on Mars, knowledge of the chronology of the biosphere wi...
The development of an in-situ geochronology capability for Mars and other planetary surfaces has t...
The absolute chronology of Mars is poorly known and as a consequence a key science aim is to perform...
The Potassium-Argon Laser Experiment( KArLE), is composed of two main instruments: a spectrometer as...
Crater counting is the only method used on Mars to give relative geochronological information but it...
Absolute age determination is necessary to check and calibrate the relative Martian chronology prese...
The development of an in-situ geochronology capability for Mars and other planetary surfaces has the...
International audienceAbsolute dating is needed to check and calibrate the relative Martian chronolo...
Sur Mars, la datation par comptage de densité de cratères est actuellement la seule méthode utilisée...
We report new K-Ar isochron data for two approximately 380 million-years-old basaltic rocks, using ...
Geochronology is a fundamental measurement for planetary samples, providing the ability to establish...
Absolute dating of planetary samples is an essential tool to establish the chronology of geological ...
The instrument 'Potassium (K) Argon Laser Experiment' (KArLE) is developed and designed for in situ ...
In planetary exploration, in situ absolute geochronology is one of the main important measurements t...
The Potassium (K) - Argon (Ar) Laser Experiment (KArLE) will make in situ noble-gas geochronology me...
If extinct and/or extant life is discovered on Mars, knowledge of the chronology of the biosphere wi...
The development of an in-situ geochronology capability for Mars and other planetary surfaces has t...
The absolute chronology of Mars is poorly known and as a consequence a key science aim is to perform...
The Potassium-Argon Laser Experiment( KArLE), is composed of two main instruments: a spectrometer as...
Crater counting is the only method used on Mars to give relative geochronological information but it...
Absolute age determination is necessary to check and calibrate the relative Martian chronology prese...
The development of an in-situ geochronology capability for Mars and other planetary surfaces has the...
International audienceAbsolute dating is needed to check and calibrate the relative Martian chronolo...
Sur Mars, la datation par comptage de densité de cratères est actuellement la seule méthode utilisée...