Add to ORKGThe five qualitatively different types of magnetism that a planet body can exhibit are outlined. Potential sources of energetic particles in a planetary magnetosphere are discussed. The magnetosphere of Uranus and Neptune are then described using Pioneer 10 data
The ice giant planets provide some of the most interesting natural laboratories for studying the inf...
Information about the magnetosphere of Saturn is provided: the magnetic dipole moment is axisymmetri...
Uranus is one of the most under-explored and least understood planetary magnetospheres in our Solar ...
Since 1973 space missions carrying vector magnetometers have shown that most, but not all, solar sys...
The following aspects of the earth's magnetosphere were discussed: general structure, magnetic field...
The outer planets of our solar system Jupiter, Saturn, Uranus, and Neptune are fascinating objects o...
The Solar System is gifted with a diverse array of magnetospheric systems, from the familiar Dungey-...
This volume reviews what we know of the corresponding plasma source for each intrinsically magnetize...
Uranus and Neptune are the least-explored planets in our Solar System. This paper summarizes mysteri...
The magnetic field geometries of Uranus and Neptune are superficially similar, and are similarly unl...
The term magnetosphere was coined by T. Gold in 1959 to describe the region above the ionosphere in ...
Magnetic fields are ubiquitous in the Universe because of the absence (or rarity) of free magnetic m...
Uranus and Neptune are the least-explored planets in our Solar System. This paper summarizes mysteri...
All magnetized planets in our solar system (Mercury, Earth, Jupiter, Saturn, Uranus, and Neptune) in...
Spacecraft observations have established that all known planets with an internal magnetic field, as ...
The ice giant planets provide some of the most interesting natural laboratories for studying the inf...
Information about the magnetosphere of Saturn is provided: the magnetic dipole moment is axisymmetri...
Uranus is one of the most under-explored and least understood planetary magnetospheres in our Solar ...
Since 1973 space missions carrying vector magnetometers have shown that most, but not all, solar sys...
The following aspects of the earth's magnetosphere were discussed: general structure, magnetic field...
The outer planets of our solar system Jupiter, Saturn, Uranus, and Neptune are fascinating objects o...
The Solar System is gifted with a diverse array of magnetospheric systems, from the familiar Dungey-...
This volume reviews what we know of the corresponding plasma source for each intrinsically magnetize...
Uranus and Neptune are the least-explored planets in our Solar System. This paper summarizes mysteri...
The magnetic field geometries of Uranus and Neptune are superficially similar, and are similarly unl...
The term magnetosphere was coined by T. Gold in 1959 to describe the region above the ionosphere in ...
Magnetic fields are ubiquitous in the Universe because of the absence (or rarity) of free magnetic m...
Uranus and Neptune are the least-explored planets in our Solar System. This paper summarizes mysteri...
All magnetized planets in our solar system (Mercury, Earth, Jupiter, Saturn, Uranus, and Neptune) in...
Spacecraft observations have established that all known planets with an internal magnetic field, as ...
The ice giant planets provide some of the most interesting natural laboratories for studying the inf...
Information about the magnetosphere of Saturn is provided: the magnetic dipole moment is axisymmetri...
Uranus is one of the most under-explored and least understood planetary magnetospheres in our Solar ...