Add to ORKGUnderstanding the interior of Jupiter depends upon our knowledge of the thermodynamics and transport properties of hydrogen-helium mixtures at high pressures and temperatures. The current status of this knowledge is reviewed, and attention is given to the metallic-molecular hydrogen transition and the limited solubility of helium in hydrogen. Models of Jupiter are constructed which are consistent with all the observations to date, but which make various assumptions about the thermodynamics and composition of the interior. These models typically consist of a rocky core surrounded by a nearly-solar fluid mixture. In contrast to the models of Podolak and Cameron, a large enhancement of water or helium is not found to be essential. It i...
Hydrogen and helium are the major constituents of Jupiter and Saturn, and phase transitions can have...
Abstract.- The deep interiors of Jupiter and Saturn consist of fluid, metallic hydrogen. In Jupiter ...
International audienceContext. While Jupiter's massive gas envelope consists mainly of hydrogen and ...
Models of the Jovian interiors based on theoretical equations of state of hydrogen and helium suppor...
This is an advance summary of a forthcoming article in the Oxford Research Encyclopedia of Planetary...
This is an advance summary of a forthcoming article in the Oxford Research Encyclopedia of Planetary...
Context. Heavy elements, even though they are a smaller constituent, are crucial to unders...
Context. Heavy elements, even though they are a smaller constituent, are crucial to unders...
Models of the Jovian interiors are based on theoretical equations of state of hydrogen and helium su...
Context. Heavy elements, even though they are a smaller constituent, are crucial to unders...
Context. Heavy elements, even though they are a smaller constituent, are crucial to unders...
Supplemental materials of Howard et al. (2023, A&A). Abstract Context. The Juno mission has provid...
Context. The Juno mission has provided measurements of Jupiter’s gravity field with an outstanding l...
We examine the comparative thermal evolution of Jupiter and Saturn, applying recent theoretical resu...
Materials at high pressures and temperatures are of great interest for planetary science and astroph...
Hydrogen and helium are the major constituents of Jupiter and Saturn, and phase transitions can have...
Abstract.- The deep interiors of Jupiter and Saturn consist of fluid, metallic hydrogen. In Jupiter ...
International audienceContext. While Jupiter's massive gas envelope consists mainly of hydrogen and ...
Models of the Jovian interiors based on theoretical equations of state of hydrogen and helium suppor...
This is an advance summary of a forthcoming article in the Oxford Research Encyclopedia of Planetary...
This is an advance summary of a forthcoming article in the Oxford Research Encyclopedia of Planetary...
Context. Heavy elements, even though they are a smaller constituent, are crucial to unders...
Context. Heavy elements, even though they are a smaller constituent, are crucial to unders...
Models of the Jovian interiors are based on theoretical equations of state of hydrogen and helium su...
Context. Heavy elements, even though they are a smaller constituent, are crucial to unders...
Context. Heavy elements, even though they are a smaller constituent, are crucial to unders...
Supplemental materials of Howard et al. (2023, A&A). Abstract Context. The Juno mission has provid...
Context. The Juno mission has provided measurements of Jupiter’s gravity field with an outstanding l...
We examine the comparative thermal evolution of Jupiter and Saturn, applying recent theoretical resu...
Materials at high pressures and temperatures are of great interest for planetary science and astroph...
Hydrogen and helium are the major constituents of Jupiter and Saturn, and phase transitions can have...
Abstract.- The deep interiors of Jupiter and Saturn consist of fluid, metallic hydrogen. In Jupiter ...
International audienceContext. While Jupiter's massive gas envelope consists mainly of hydrogen and ...