Add to ORKGAbstract. Magnetized plasmas in motion inevitably generate currents and the magnetized plasmas that form the magnetospheres of the outer planets are no exception. Although a focus on the current systems tends to distract from the underlying dynamics, many elements of magnetospheric structure can be organized by discussing them in terms of the large scale currents present in the system. This paper starts with a digression on the pitfalls of a current-based description of a planetary magnetosphere but then proceeds to characterize the magnetospheres of Jupiter, Earth, and to some extent Saturn by the currents that flow within them. Emphasis is placed on the field-aligned currents that couple the equatorial magnetospheres to the ionospheres an...
The interaction of the solar wind with Earth's magnetosphere gives rise to the bright polar aurorae ...
Solar system magnetospheres can be divided into two groups: induced and intrinsic. The induced magne...
We have developed global magnetohydrodynamic (MHD) models of the magnetospheres of Jupiter and Satur...
The magnetospheres of the giant outer planets Jupiter and Saturn are characterized by strong intrins...
An important aspect of solar system plasma physics is the linkage and coupling of denser, colder ion...
At orbital distances of 5 AU and beyond, the low solar wind dynamic pressure and weak interplanetary...
Thinking back to the first Yosemite meeting in 1974 (a year marked by political and climatic turbule...
The rapidly rotating magnetospheres of the gas giant planets, Jupiter and Saturn, are natural labora...
Some aspects of M-I coupling are universal from one planet to another, for example, the crucial role...
This thesis is concerned with the study of magnetic field perturbations associated with large scale ...
The amplitude and spatial distribution of the coupling currents that flow between Jupiter’s ionosphe...
We calculate the latitude profile of the equatorward-directed ionospheric Pedersen currents that a...
Magnetic field observations obtained by the Cassini spacecraft as it traversed regions inside of Sat...
We calculate the latitude profile of the equatorward-directed ionospheric Pedersen currents that are...
We review in situ observations made in Jupiter and Saturn’s magnetosphere that illustrate the possib...
The interaction of the solar wind with Earth's magnetosphere gives rise to the bright polar aurorae ...
Solar system magnetospheres can be divided into two groups: induced and intrinsic. The induced magne...
We have developed global magnetohydrodynamic (MHD) models of the magnetospheres of Jupiter and Satur...
The magnetospheres of the giant outer planets Jupiter and Saturn are characterized by strong intrins...
An important aspect of solar system plasma physics is the linkage and coupling of denser, colder ion...
At orbital distances of 5 AU and beyond, the low solar wind dynamic pressure and weak interplanetary...
Thinking back to the first Yosemite meeting in 1974 (a year marked by political and climatic turbule...
The rapidly rotating magnetospheres of the gas giant planets, Jupiter and Saturn, are natural labora...
Some aspects of M-I coupling are universal from one planet to another, for example, the crucial role...
This thesis is concerned with the study of magnetic field perturbations associated with large scale ...
The amplitude and spatial distribution of the coupling currents that flow between Jupiter’s ionosphe...
We calculate the latitude profile of the equatorward-directed ionospheric Pedersen currents that a...
Magnetic field observations obtained by the Cassini spacecraft as it traversed regions inside of Sat...
We calculate the latitude profile of the equatorward-directed ionospheric Pedersen currents that are...
We review in situ observations made in Jupiter and Saturn’s magnetosphere that illustrate the possib...
The interaction of the solar wind with Earth's magnetosphere gives rise to the bright polar aurorae ...
Solar system magnetospheres can be divided into two groups: induced and intrinsic. The induced magne...
We have developed global magnetohydrodynamic (MHD) models of the magnetospheres of Jupiter and Satur...