Add to ORKGThe spins of planetary bodies are not stagnant; they evolve in response to both external and internal forces. One way a planet's spin can change is through true polar wander. True polar wander is the reorientation of a planetary body with respect to its angular momentum vector, and occurs when mass is redistributed within the body, changing its principal axes of inertia. True polar wander can literally reshape a world, and has important implications for a variety of processes—from the long-term stability of polar volatiles in the permanently shadowed regions of airless worlds like the Moon and Mercury, to the global tectonic patterns of icy worlds like Pluto. In this dissertation, we investigate three specific instances of planetary true po...
[1] Many regions near the lunar poles are currently cold enough that surface water ice would be stab...
An enduring mystery since Apollo is that, in spite of the Moon's lack of a global magnetic field, th...
[1] Large impact basins are present on many of the icy satellites of the outer solar system. Assumin...
The earliest dynamic and thermal history of the Moon is not well understood. The hydrogen content of...
[1] We consider the true polar wander (rotational variations driven by mass redistribution) of tidal...
Rotating planets are most stable when spinning around their maximum moment of inertia, and will tend...
The origin of the Moon's large-scale topography is important for understanding lunar geology, lunar ...
International audiencePhobos and Deimos are the two small Martian moons, orbiting almost on the equa...
Published in Nature Geoscience. Accepted version of the manuscript before editing by the publisherIn...
The rotational behaviour of a stratified visco-elastic planet submitted to changes in its inertia te...
Mass redistribution in the convecting mantle of a planet causes perturbations in its moment of inert...
cited By 79International audienceThe rotational behaviour of a stratified visco-elastic planet submi...
In the last fifty years, the spacemissions Voyager, Galileo, Cassini-Huygens and Juno explored the m...
Planetary science is often limited to only surface observations of planets requiring the development...
[1] Many regions near the lunar poles are currently cold enough that surface water ice would be stab...
An enduring mystery since Apollo is that, in spite of the Moon's lack of a global magnetic field, th...
[1] Large impact basins are present on many of the icy satellites of the outer solar system. Assumin...
The earliest dynamic and thermal history of the Moon is not well understood. The hydrogen content of...
[1] We consider the true polar wander (rotational variations driven by mass redistribution) of tidal...
Rotating planets are most stable when spinning around their maximum moment of inertia, and will tend...
The origin of the Moon's large-scale topography is important for understanding lunar geology, lunar ...
International audiencePhobos and Deimos are the two small Martian moons, orbiting almost on the equa...
Published in Nature Geoscience. Accepted version of the manuscript before editing by the publisherIn...
The rotational behaviour of a stratified visco-elastic planet submitted to changes in its inertia te...
Mass redistribution in the convecting mantle of a planet causes perturbations in its moment of inert...
cited By 79International audienceThe rotational behaviour of a stratified visco-elastic planet submi...
In the last fifty years, the spacemissions Voyager, Galileo, Cassini-Huygens and Juno explored the m...
Planetary science is often limited to only surface observations of planets requiring the development...
[1] Many regions near the lunar poles are currently cold enough that surface water ice would be stab...
An enduring mystery since Apollo is that, in spite of the Moon's lack of a global magnetic field, th...
[1] Large impact basins are present on many of the icy satellites of the outer solar system. Assumin...