The purpose of this report is to address uncertainties in the plasma models at Jupiter responsible for surface charging and to update the jovian plasma models using the most recent data available. The updated plasma environment models were then used to evaluate two proposed Europa mission designs for spacecraft charging effects using the Nascap-2k code. The original Divine/Garrett jovian plasma model (or "DG1", T. N. Divine and H. B. Garrett, "Charged particle distributions in Jupiter's magnetosphere," J. Geophys. Res., vol. 88, pp. 6889-6903,1983) has not been updated in 30 years, and there are known errors in the model. As an example, the cold ion plasma temperatures between approx.5 and 10 Jupiter radii (Rj) were found by the experimente...
We present an analysis of a series of observations of the auroral/polar regions of Jupiter, carried ...
Jupiter's plasma environment is one of the most interesting plasma laboratories in our solar System....
International audienceThe dynamics of the Jovian magnetosphere is controlled by the complex interpla...
We developed a new empirical model for corotating plasma in the Jovian magnetosphere. The model, nam...
A model to predict spacecraft charging effects in the Jovian magnetosphere was developed for the pre...
As an orbiter cruising to Jupiter will encounter different plasma environments, variety of spacecraf...
Magnetometer and plasma science data from the Voyager 1 and Voyager 2 encounters of Jupiter are comb...
The plasma science (PLS) Instrument on the Galileo spacecraft (orbiting Jupiter from December 1995 t...
Europa, one of Jupiter's Galilean moons, is one of the few planetary bodies in our solar system thou...
Europa, one of Jupiter’s Galilean moons, is embedded in the region of space dominated by Jupiter’s m...
The Jovian magnetosphere equatorial region is filled with cold dense plasma that in a broad sense co...
Jupiter's plasma environment is one of the most interesting plasma laboratories in our solar System....
Jupiter is the archetype of a rotation-driven magnetosphere dominated by an internal source of plasm...
Auroral emissions are generated through the acceleration of current carriers along magnetic field li...
The plasma environment within Jupiter's bow shock is considered in terms of the in situ, calibrated ...
We present an analysis of a series of observations of the auroral/polar regions of Jupiter, carried ...
Jupiter's plasma environment is one of the most interesting plasma laboratories in our solar System....
International audienceThe dynamics of the Jovian magnetosphere is controlled by the complex interpla...
We developed a new empirical model for corotating plasma in the Jovian magnetosphere. The model, nam...
A model to predict spacecraft charging effects in the Jovian magnetosphere was developed for the pre...
As an orbiter cruising to Jupiter will encounter different plasma environments, variety of spacecraf...
Magnetometer and plasma science data from the Voyager 1 and Voyager 2 encounters of Jupiter are comb...
The plasma science (PLS) Instrument on the Galileo spacecraft (orbiting Jupiter from December 1995 t...
Europa, one of Jupiter's Galilean moons, is one of the few planetary bodies in our solar system thou...
Europa, one of Jupiter’s Galilean moons, is embedded in the region of space dominated by Jupiter’s m...
The Jovian magnetosphere equatorial region is filled with cold dense plasma that in a broad sense co...
Jupiter's plasma environment is one of the most interesting plasma laboratories in our solar System....
Jupiter is the archetype of a rotation-driven magnetosphere dominated by an internal source of plasm...
Auroral emissions are generated through the acceleration of current carriers along magnetic field li...
The plasma environment within Jupiter's bow shock is considered in terms of the in situ, calibrated ...
We present an analysis of a series of observations of the auroral/polar regions of Jupiter, carried ...
Jupiter's plasma environment is one of the most interesting plasma laboratories in our solar System....
International audienceThe dynamics of the Jovian magnetosphere is controlled by the complex interpla...
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