Add to ORKGIo, the innermost of Jupiter's Galilean satellites, is the most volcanically active body in the Solar. System. Io's global mean heat flow is approximately 2 W/square m, which is approximately 20 times larger than on Earth. High surface temperatures concentrate within "hotspots" and, to date, 172 Ionian hotspots have been identified by spacecraft and Earth-based telescopes. The Laplace resonance between Io, Europa, and Ganymede maintains these satellites in noncircular orbits and causes displacement of their tidal bulges as the overhead position of Jupiter changes for each moon. Gravitational interactions between Jupiter and Io dominate the orbital evolution of the Laplacian system and generate enormous heat within to as tidal energy is diss...
International audienceIo is the volcanically most active body in the Solar System and has a large su...
A new global geologic map of Jupiter's volcanic moon, Io is being prepared, with the focus being on ...
Io's spectacular and unique appearance is characterised by its yellowish surface, colourful lava dep...
The extreme and time-variable volcanic activity on Jupiter’s moon Io is the result of periodic tidal...
Tidal heating is expected to impart significant, non-spherically-symmetric structure to Jupiter’s vo...
Tidal dissipation makes Jupiter's moon Io the most volcanically active body in the solar system. Mos...
Jupiter’s moon Io is the most volcanically active body in the solar system. This paper seeks to qu...
The distribution of Io's volcanic activity likely reflects the position and magnitude of internal ti...
Since the end of the Galileo epoch, ground-based observations have been crucial for the continued mo...
Satellite and recent Earth-based observations of Io's surface reveal a specific spatial pattern of p...
Extreme volcanism on Io results from tidal heating, but its tidal dissipation mechanisms and magma a...
Io has very high surface heat flow and an abundance of volcanic activity, which are thought to be dr...
Paterae (volcano-tectonic depressions) are among the most prominent topographic features on Io. They...
We have completed a new 1:15,000,000 global geologic map of Jupiter's volcanic moon, Io, based on a ...
The discovery of active volcanism on Jupiter’s moon Io in 1979 has motivated significant research by...
International audienceIo is the volcanically most active body in the Solar System and has a large su...
A new global geologic map of Jupiter's volcanic moon, Io is being prepared, with the focus being on ...
Io's spectacular and unique appearance is characterised by its yellowish surface, colourful lava dep...
The extreme and time-variable volcanic activity on Jupiter’s moon Io is the result of periodic tidal...
Tidal heating is expected to impart significant, non-spherically-symmetric structure to Jupiter’s vo...
Tidal dissipation makes Jupiter's moon Io the most volcanically active body in the solar system. Mos...
Jupiter’s moon Io is the most volcanically active body in the solar system. This paper seeks to qu...
The distribution of Io's volcanic activity likely reflects the position and magnitude of internal ti...
Since the end of the Galileo epoch, ground-based observations have been crucial for the continued mo...
Satellite and recent Earth-based observations of Io's surface reveal a specific spatial pattern of p...
Extreme volcanism on Io results from tidal heating, but its tidal dissipation mechanisms and magma a...
Io has very high surface heat flow and an abundance of volcanic activity, which are thought to be dr...
Paterae (volcano-tectonic depressions) are among the most prominent topographic features on Io. They...
We have completed a new 1:15,000,000 global geologic map of Jupiter's volcanic moon, Io, based on a ...
The discovery of active volcanism on Jupiter’s moon Io in 1979 has motivated significant research by...
International audienceIo is the volcanically most active body in the Solar System and has a large su...
A new global geologic map of Jupiter's volcanic moon, Io is being prepared, with the focus being on ...
Io's spectacular and unique appearance is characterised by its yellowish surface, colourful lava dep...