Add to ORKGTwo bodies in the Solar System exhibit high-temperature active volcanism: Earth and Io. While there are important differences in the eruptions on Earth and Io, in low-spatial-resolution data (corresponding to the bulk of available and foreseeable data of Io), similar styles of effusive and explosive volcanism yield similar thermal flux densities. For example, a square metre of an active pahoehoe flow on Io looks very similar to a square metre of an active pahoehoe flow on Earth. If, from observed thermal emission as a function of wavelength and change in thermal emission with time, the eruption style of an ionian volcano can be constrained, estimates of volumetric fluxes can be made and compared with terrestrial volcanoes using techniques d...
Io is currently emitting 1–1.5 W m−2 of tidal energy as a result of its volcanic activity. If the li...
International audienceOver the past fifty years, a diverse set of thermal infrared (TIR) remote sens...
The extreme and time-variable volcanic activity on Jupiter’s moon Io is the result of periodic tidal...
We investigate a spectrum-based technique to identify the style of active volcanic eruptions on Jupi...
The temporal signature of thermal emission from a volcano is a valuable clue to the processes taking...
Galileo’s Near-Infrared Mapping Spectrometer (NIMS) obtained its final observations of Io during the...
Near-infrared observations of Io during occultation by Jupiter and the other Galilean satellites hav...
International audienceWe report observations of four energetic volcanic eruptions on Io: at Tupan Pa...
The Jovian satellite Io is the most volcanically active body in the Solar System. Previous analyses ...
Tidal dissipation makes Jupiter's moon Io the most volcanically active body in the solar system. Mos...
The first direct evidence that patterns of basaltic eruptive activity may be very similar on Io and ...
Unraveling the geological processes ongoing at Io’s numerous sites of active volcanism requires high...
We present in this Keck AO paper the first global high angular resolution observations of Io in thre...
Observations obtained with the near-infrared camera NIRC2, coupled to the adaptive optics system on ...
In February 2007, the New Horizons spacecraft flew by the Jupiter system, obtaining images of Io, th...
Io is currently emitting 1–1.5 W m−2 of tidal energy as a result of its volcanic activity. If the li...
International audienceOver the past fifty years, a diverse set of thermal infrared (TIR) remote sens...
The extreme and time-variable volcanic activity on Jupiter’s moon Io is the result of periodic tidal...
We investigate a spectrum-based technique to identify the style of active volcanic eruptions on Jupi...
The temporal signature of thermal emission from a volcano is a valuable clue to the processes taking...
Galileo’s Near-Infrared Mapping Spectrometer (NIMS) obtained its final observations of Io during the...
Near-infrared observations of Io during occultation by Jupiter and the other Galilean satellites hav...
International audienceWe report observations of four energetic volcanic eruptions on Io: at Tupan Pa...
The Jovian satellite Io is the most volcanically active body in the Solar System. Previous analyses ...
Tidal dissipation makes Jupiter's moon Io the most volcanically active body in the solar system. Mos...
The first direct evidence that patterns of basaltic eruptive activity may be very similar on Io and ...
Unraveling the geological processes ongoing at Io’s numerous sites of active volcanism requires high...
We present in this Keck AO paper the first global high angular resolution observations of Io in thre...
Observations obtained with the near-infrared camera NIRC2, coupled to the adaptive optics system on ...
In February 2007, the New Horizons spacecraft flew by the Jupiter system, obtaining images of Io, th...
Io is currently emitting 1–1.5 W m−2 of tidal energy as a result of its volcanic activity. If the li...
International audienceOver the past fifty years, a diverse set of thermal infrared (TIR) remote sens...
The extreme and time-variable volcanic activity on Jupiter’s moon Io is the result of periodic tidal...