Add to ORKGPressure is a key parameter in the physics and chemistry of planet formation and evolution. Previous studies have erroneously assumed that internal pressures monotonically increase with the mass of a body. Using smoothed particle hydrodynamics and potential field method calculations, we demonstrate that the hot, rapidly rotating bodies produced by giant impacts can have much lower internal pressures than cool, slowly rotating planets of the same mass. Pressures subsequently increase because of thermal and rotational evolution of the body. Using the Moon-forming impact as an example, we show that the internal pressures after the collision could have been less than half that in present-day Earth. The current pressure profile was not establish...
The present internal state of the earth and the age of various events such as core formation and con...
A terrestrial planet is molten during formation and may remain so if subject to intense insolation o...
In the invited article, we review observations on changes in meteorite texture relevant to the early...
Pressure is a key parameter in the physics and chemistry of planet formation and evolution. Previous...
Quantifying the energy budget of Earth in the first few million years following the Moon-forming gia...
Ideas about the accretion and early evolution of the Earth and the other terrestrial planets have re...
Recent advances in understanding planetary formation indicate that mass and energy accumulation are ...
After the development of shock compression methods for obtaining pressure-density Hugoniot curves, i...
The atmospheres of bodies in the Solar system display a great degree of diversity in their mass and ...
Previous calculations indicate that the Earth suffered impacts from objects up to Mars size. Such a ...
Mini-Neptunes and volatile-poor super-Earths coexist on adjacent orbits in proximity to host stars s...
This dissertation examines the influence which a geophysical process (giant impacts) has on a geoche...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planeta...
This dissertation examines the influence which a geophysical process (giant impacts) has on a geoche...
Prior to becoming chondritic meteorites, primordial solids were a poorly consolidated mix of mm-scal...
The present internal state of the earth and the age of various events such as core formation and con...
A terrestrial planet is molten during formation and may remain so if subject to intense insolation o...
In the invited article, we review observations on changes in meteorite texture relevant to the early...
Pressure is a key parameter in the physics and chemistry of planet formation and evolution. Previous...
Quantifying the energy budget of Earth in the first few million years following the Moon-forming gia...
Ideas about the accretion and early evolution of the Earth and the other terrestrial planets have re...
Recent advances in understanding planetary formation indicate that mass and energy accumulation are ...
After the development of shock compression methods for obtaining pressure-density Hugoniot curves, i...
The atmospheres of bodies in the Solar system display a great degree of diversity in their mass and ...
Previous calculations indicate that the Earth suffered impacts from objects up to Mars size. Such a ...
Mini-Neptunes and volatile-poor super-Earths coexist on adjacent orbits in proximity to host stars s...
This dissertation examines the influence which a geophysical process (giant impacts) has on a geoche...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planeta...
This dissertation examines the influence which a geophysical process (giant impacts) has on a geoche...
Prior to becoming chondritic meteorites, primordial solids were a poorly consolidated mix of mm-scal...
The present internal state of the earth and the age of various events such as core formation and con...
A terrestrial planet is molten during formation and may remain so if subject to intense insolation o...
In the invited article, we review observations on changes in meteorite texture relevant to the early...