Add to ORKGThe existence of numerous iron meteorite groups indicates that some planetesimals underwent melting that led to metal-silicate segregation, sometimes producing metallic cores. Meteorite paleomagnetic records suggest that crystallization of these cores generated dynamo magnetic fields. Here we describe the magnetic history of the partially differentiated IIE iron meteorite parent body. This is the first planetesimal for which we have a time-resolved paleomagnetic record constrained by 40Ar/39Ar chronometry spanning several tens of million years (Ma). We find that the core of the IIE parent body generated a dynamo, likely powered by core crystallization, starting before 78 ± 13 Ma after solar system formation and lasting at lea...
Recent planetary space missions, new experimental data, and advanced numerical techniques have helpe...
The detection of strongly magnetized ancient crust on Mars is one of the most surprising outcomes of...
Today, the Earth generates a magnetic field through convection of the electrically conducting molten...
The existence of numerous iron meteorite groups indicates that some planetesimals underwent melting ...
International audienceThe existence of numerous iron meteorite groups indicates that some planetesim...
The direction in which a planetary core solidifies has fundamental implications for the feasibility ...
Palaeomagnetic measurements of meteorites suggest that, shortly after the birth of the Solar System,...
This thesis investigates fundamental properties of the first planetary bodies of our solar system. S...
International audiencePaleomagnetic studies of meteorites have shown that the solar nebula was likel...
Palaeomagnetic measurements of meteorites suggest that, shortly after the birth of the Solar System,...
Recent paleomagnetic studies of two Main Group pallasites, the Imilac and Esquel, have found evidenc...
AbstractRecent paleomagnetic studies of two Main Group pallasites, the Imilac and Esquel, have found...
Paleomagnetic measurements of ancient terrestrial and extraterrestrial samples indicate that numerou...
Recent paleomagnetic studies of two Main Group pallasites, the Imilac and Esquel, have found evidenc...
Recent planetary space missions, new experimental data, and advanced numerical techniques have helpe...
The detection of strongly magnetized ancient crust on Mars is one of the most surprising outcomes of...
Today, the Earth generates a magnetic field through convection of the electrically conducting molten...
The existence of numerous iron meteorite groups indicates that some planetesimals underwent melting ...
International audienceThe existence of numerous iron meteorite groups indicates that some planetesim...
The direction in which a planetary core solidifies has fundamental implications for the feasibility ...
Palaeomagnetic measurements of meteorites suggest that, shortly after the birth of the Solar System,...
This thesis investigates fundamental properties of the first planetary bodies of our solar system. S...
International audiencePaleomagnetic studies of meteorites have shown that the solar nebula was likel...
Palaeomagnetic measurements of meteorites suggest that, shortly after the birth of the Solar System,...
Recent paleomagnetic studies of two Main Group pallasites, the Imilac and Esquel, have found evidenc...
AbstractRecent paleomagnetic studies of two Main Group pallasites, the Imilac and Esquel, have found...
Paleomagnetic measurements of ancient terrestrial and extraterrestrial samples indicate that numerou...
Recent paleomagnetic studies of two Main Group pallasites, the Imilac and Esquel, have found evidenc...
Recent planetary space missions, new experimental data, and advanced numerical techniques have helpe...
The detection of strongly magnetized ancient crust on Mars is one of the most surprising outcomes of...
Today, the Earth generates a magnetic field through convection of the electrically conducting molten...