Add to ORKGWe present a 6-month baseline of spatially resolved measurements of the Io plasma torus intensity and perpendicular ion temperature which we use to determine the periodicities of the torus during this time. We find large anticorrelated variations in the intensity and ion temperature which are periodic with the Jovian rotation rate (System III). The intensity variations are found to be a simple manifestation of the temperature variations, though no explanation for the temperature variations is apparent. Periodogram analysis shows an additional intensity periodicity which rotates 2.91±0.06% more slowly than System III. This period is found only in the intensity and not in the ion temperature. We conclude from these observations that the torus...
We present empirical evidence for a radiative cooling time for the Io plasma torus that is about a f...
The engine that drives the jovian magnetosphere is the mass added to the Io ion torus, accelerated t...
The jovian moon Io disperses about 1 ton/s of material in the planetary magnetosphere, mainly b...
We present a 6-month baseline of spatially resolved measurements of the Io plasma torus intensity an...
In this third paper in a series presenting observations by the Cassini Ultraviolet Imaging Spectrome...
In this third paper in a series presenting observations by the Cassini Ultraviolet Imaging Spectrome...
Ground‐based high‐resolution spectra of emission from the Io plasma torus obtained during 53 nights ...
We report the discovery with the Ulysses unified radio and plasma wave (URAP) instrument of features...
Narrow-band interference filter images were obtained for the Io torus at the S II wavelengths of 671...
Observations of the Io plasma torus made before, during, and after the impact of Comet Shoemaker‐Lev...
Jupiter hosts very intense auroral emissions, which originates from various magnetospheric processes...
peer reviewedQuasi-periodic variations of a few to several days are observed in the energetic plasma...
International audienceWe study the Jovian hectometric (HOM) emissions recorded by the RPWS (Radio an...
A Fabry-Perot spectrometer was used to obtain images of the Io torus in emission lines of S II (wave...
International audienceIt has been proposed that short-timescale fluctuations about the mean electric...
We present empirical evidence for a radiative cooling time for the Io plasma torus that is about a f...
The engine that drives the jovian magnetosphere is the mass added to the Io ion torus, accelerated t...
The jovian moon Io disperses about 1 ton/s of material in the planetary magnetosphere, mainly b...
We present a 6-month baseline of spatially resolved measurements of the Io plasma torus intensity an...
In this third paper in a series presenting observations by the Cassini Ultraviolet Imaging Spectrome...
In this third paper in a series presenting observations by the Cassini Ultraviolet Imaging Spectrome...
Ground‐based high‐resolution spectra of emission from the Io plasma torus obtained during 53 nights ...
We report the discovery with the Ulysses unified radio and plasma wave (URAP) instrument of features...
Narrow-band interference filter images were obtained for the Io torus at the S II wavelengths of 671...
Observations of the Io plasma torus made before, during, and after the impact of Comet Shoemaker‐Lev...
Jupiter hosts very intense auroral emissions, which originates from various magnetospheric processes...
peer reviewedQuasi-periodic variations of a few to several days are observed in the energetic plasma...
International audienceWe study the Jovian hectometric (HOM) emissions recorded by the RPWS (Radio an...
A Fabry-Perot spectrometer was used to obtain images of the Io torus in emission lines of S II (wave...
International audienceIt has been proposed that short-timescale fluctuations about the mean electric...
We present empirical evidence for a radiative cooling time for the Io plasma torus that is about a f...
The engine that drives the jovian magnetosphere is the mass added to the Io ion torus, accelerated t...
The jovian moon Io disperses about 1 ton/s of material in the planetary magnetosphere, mainly b...
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