Add to ORKGTides, a consequence of differential gravitational forces, are one of the fundamental processes that govern the evolution of planetary bodies. They lead to deformation that causes heating via friction, changes in rotation through applied torques, and alteration of planetary orbits. Oceanic tides play an important role in these and are often neglected. The dynamical response of ice-free and ice-covered oceans to tidal forcing is numerically and analytically explored in the icy satellites, with focus on Titan, Enceladus, and the Galilean moons. Numerical calculations that consider dissipation via turbulent boundary layer drag show that heat released though obliquity tides is unaffected by the thickness of a body's ocean, implying that this is...
Tidal heating plays a significant role in the evolution of many satellites in the outer Solar System...
In both our solar system and extra-solar planetary systems, tides may have a variety of effects, dri...
International audienceOceanic tides are a major source of tidal dissipation. They are a key actor fo...
In the last fifty years, the spacemissions Voyager, Galileo, Cassini-Huygens and Juno explored the m...
Subsurface ocean tides act as a mechanism to dissipate tidal energy in icy satellite interiors. We n...
The observed activity at the surfaces of the Galilean satellites mask subsurface internal dynamics. ...
Some of the moons of the outer solar system harbour subsurface liquid oceans. Tidal dissipation play...
Several moons of the solar system have a global subsurface ocean filled with liquid water beneath th...
The gravitational force exerted by a central planet deforms its orbiting moons (tides) and periodica...
Bodily tides provide key information on the interior structure, evolution, and origin of the planeta...
International audienceTides can strongly affect the evolution of the spin of planets. Super-Earths p...
The history of satellites in the Solar System is quite diverse. For example, satellites like Io and ...
As a long-term energy source, tidal heating in subsurface oceans of icy satellites can influence the...
Tidal heating can play an important role in the formation and evolution of subsurface oceans of oute...
Tidal heating plays a significant role in the evolution of many satellites in the outer Solar System...
In both our solar system and extra-solar planetary systems, tides may have a variety of effects, dri...
International audienceOceanic tides are a major source of tidal dissipation. They are a key actor fo...
In the last fifty years, the spacemissions Voyager, Galileo, Cassini-Huygens and Juno explored the m...
Subsurface ocean tides act as a mechanism to dissipate tidal energy in icy satellite interiors. We n...
The observed activity at the surfaces of the Galilean satellites mask subsurface internal dynamics. ...
Some of the moons of the outer solar system harbour subsurface liquid oceans. Tidal dissipation play...
Several moons of the solar system have a global subsurface ocean filled with liquid water beneath th...
The gravitational force exerted by a central planet deforms its orbiting moons (tides) and periodica...
Bodily tides provide key information on the interior structure, evolution, and origin of the planeta...
International audienceTides can strongly affect the evolution of the spin of planets. Super-Earths p...
The history of satellites in the Solar System is quite diverse. For example, satellites like Io and ...
As a long-term energy source, tidal heating in subsurface oceans of icy satellites can influence the...
Tidal heating can play an important role in the formation and evolution of subsurface oceans of oute...
Tidal heating plays a significant role in the evolution of many satellites in the outer Solar System...
In both our solar system and extra-solar planetary systems, tides may have a variety of effects, dri...
International audienceOceanic tides are a major source of tidal dissipation. They are a key actor fo...