Add to ORKGWe propose a model for the formation and evolution of the Earth's core which provides an adequate energy source for maintaining the geodynamo. A modified inhomogeneous accretion model is proposed which leads to initial iron and refractory enrichment at the center of the planet. The probable heat source for melting of the core is the decay of ^(26)Al. The refractory material is emplaced irregularly in the lowermost mantle with uranium and thorium serving as a long-lived heat source. Fluid motions in the core are driven by the differential heating from above and the resulting cyclonic motions may be the source of the geodynamo
International audienceAlthough it is known that the geodynamo has been operating for at least 3.2 Ga...
We model the inner core by an alloy of iron and 8 per cent sulphur or silicon and the outer core by ...
Earth’s global magnetic field arises from vigorous convection within the liquid outer core. Palaeoma...
We propose a model for the formation and evolution of the Earth's core which provides an adequate en...
A model is proposed for the formation and evolution of the Earth's core which provides an adequate e...
The role of heat flow coming from the core is often overlooked or underestimated in simple models of...
The magnetic field of the Earth is generated by convection in the liquid-core and the energy necessa...
The thermal history of the Earth, from planetary accretion and core differentiation up to the pr...
The energy budget of the Earth’s core balances the heat lost through cooling with the sum of gravita...
Reconstructions of the Phanerozoic history of mantle global circulation that include past plate moti...
A computer model was developed to investigate the formation of the core by the sinking of iron spher...
Reconstructions of the Phanerozoic history of mantle global circulation that include past plate moti...
Combined inferences from seismology, high-pressure experiment and theory, geomagnetism, fluid dynami...
The earth is considered to have been formed in several stages in a solar nebula by accretion of carb...
International audienceThe dynamics of Earth's inner core depends critically on whether it is stably ...
International audienceAlthough it is known that the geodynamo has been operating for at least 3.2 Ga...
We model the inner core by an alloy of iron and 8 per cent sulphur or silicon and the outer core by ...
Earth’s global magnetic field arises from vigorous convection within the liquid outer core. Palaeoma...
We propose a model for the formation and evolution of the Earth's core which provides an adequate en...
A model is proposed for the formation and evolution of the Earth's core which provides an adequate e...
The role of heat flow coming from the core is often overlooked or underestimated in simple models of...
The magnetic field of the Earth is generated by convection in the liquid-core and the energy necessa...
The thermal history of the Earth, from planetary accretion and core differentiation up to the pr...
The energy budget of the Earth’s core balances the heat lost through cooling with the sum of gravita...
Reconstructions of the Phanerozoic history of mantle global circulation that include past plate moti...
A computer model was developed to investigate the formation of the core by the sinking of iron spher...
Reconstructions of the Phanerozoic history of mantle global circulation that include past plate moti...
Combined inferences from seismology, high-pressure experiment and theory, geomagnetism, fluid dynami...
The earth is considered to have been formed in several stages in a solar nebula by accretion of carb...
International audienceThe dynamics of Earth's inner core depends critically on whether it is stably ...
International audienceAlthough it is known that the geodynamo has been operating for at least 3.2 Ga...
We model the inner core by an alloy of iron and 8 per cent sulphur or silicon and the outer core by ...
Earth’s global magnetic field arises from vigorous convection within the liquid outer core. Palaeoma...