Add to ORKGIo is the solar system’s most volcanically active body. This volcanic activity results in the ejection of material into Io’s atmosphere, which then escapes from the atmosphere to form various structures in the Jovian magnetosphere. These include the plasma torus and clouds of neutral particles. The physical processes involved in the escape of particles are not yet fully understood. Indeed, the study of the atmosphere and the volcanoes in the one hand and the study of the plasma torus on the other hand, lead to two different conclusions regarding the origin of the variability of the torus plasma content. Observations of Io, with a particular focus on the neutral sodium clouds, which are relatively easy to detect thanks to the bright D-double...
International audienceWe report ground-based spectroscopic observations of the Io sodium cloud befor...
It is generally accepted that Io is the source of S, O, Na and K which, after ionization, form the c...
Narrow-band interference filter images were obtained for the Io torus at the S II wavelengths of 671...
Io is one of the most active bodies of the solar system, with an intense volcanism powered by tidal ...
International audienceWe report the results of model simulations performed to explain the nature of ...
New high-resolution spectra of Io sodium have identified an unexpected velocity structure near Io's ...
line 9 AbstractDramatic changes in the brightness and shape of Jupiter’s extended sodium nebula are ...
A variety of models for Io's atmosphere, ionosphere, surface, and environment are developed and disc...
Ground‐based high‐resolution spectra of emission from the Io plasma torus obtained during 53 nights ...
International audienceIo’s atmosphere is predominately SO that is sustained by a combination of volc...
International audienceWith the object of constraining Iogenic contributions and identifying drivers ...
Io is surrounded by a halo of atoms which radiate in emission lines. This was discovered by groundb...
Abstract Jupiter’s moon Io, which orbits deep inside the magnetosphere, is the most geologically act...
International audienceExtrasolar satellites are generally too small to be detected by nominal search...
International audienceWe report ground-based spectroscopic observations of the Io sodium cloud befor...
It is generally accepted that Io is the source of S, O, Na and K which, after ionization, form the c...
Narrow-band interference filter images were obtained for the Io torus at the S II wavelengths of 671...
Io is one of the most active bodies of the solar system, with an intense volcanism powered by tidal ...
International audienceWe report the results of model simulations performed to explain the nature of ...
New high-resolution spectra of Io sodium have identified an unexpected velocity structure near Io's ...
line 9 AbstractDramatic changes in the brightness and shape of Jupiter’s extended sodium nebula are ...
A variety of models for Io's atmosphere, ionosphere, surface, and environment are developed and disc...
Ground‐based high‐resolution spectra of emission from the Io plasma torus obtained during 53 nights ...
International audienceIo’s atmosphere is predominately SO that is sustained by a combination of volc...
International audienceWith the object of constraining Iogenic contributions and identifying drivers ...
Io is surrounded by a halo of atoms which radiate in emission lines. This was discovered by groundb...
Abstract Jupiter’s moon Io, which orbits deep inside the magnetosphere, is the most geologically act...
International audienceExtrasolar satellites are generally too small to be detected by nominal search...
International audienceWe report ground-based spectroscopic observations of the Io sodium cloud befor...
It is generally accepted that Io is the source of S, O, Na and K which, after ionization, form the c...
Narrow-band interference filter images were obtained for the Io torus at the S II wavelengths of 671...