Add to ORKGAbstract. The dual technique magnetometer system onboard the Cassini orbiter is described. This instrument consists of vector helium and fluxgate magnetometers with the capability to operate the helium device in a scalar mode. This special mode is used near the planet in order to determine with very high accuracy the interior field of the planet. The orbital mission will lead to a detailed understanding of the Saturn/Titan system including measurements of the planetary magnetosphere, and the interactions of Saturn with the solar wind, of Titan with its environments, and of the icy satellites within the magnetosphere
The Cassini mission entered the Grand Finale phase in April 2017 and executed 22.5 highly inclined, ...
The MAG (Magnetometer) instrument aboard the Venus Express spacecraft is designed to investigate the...
The Juno Magnetic Field investigation (MAG) characterizes Jupiter's planetary magnetic field and mag...
This thesis concerns spacecraft observations of magnetic field and plasma in Saturn’s near space env...
The magnetometer is a key instrument to the Solar Orbiter mission. The magnetic field is a fundament...
[1] Saturn’s magnetosphere is currently studied from the microphysical to the global scale by the Ca...
International audienceTwo distinct and variable rotation periods in Saturn’s radio emissions were re...
With spaceborne magnetic field measurements it is possible to investigate the interior of planets,mo...
The magnetometer is a key instrument to the Solar Orbiter mission. The magnetic field is a fundament...
The magnetometer instrument on the Solar Orbiter mission is designed to measure the magnetic field l...
The magnetometer measurements taken by Cassini have confirmed the unusual character of Saturn’s inte...
Magnetospheric and plasma science studies at Saturn offer a unique opportunity to explore in-depth t...
Observations performed by the radio and plasma wave science (RPWS) experiment on board the Cassini s...
The Pioneer Saturn vector helium magnetometer has detected a bow shock and magnetopause at Saturn an...
Abstract. The Cassini Plasma Spectrometer (CAPS) will make comprehensive three-dimensional mass-reso...
The Cassini mission entered the Grand Finale phase in April 2017 and executed 22.5 highly inclined, ...
The MAG (Magnetometer) instrument aboard the Venus Express spacecraft is designed to investigate the...
The Juno Magnetic Field investigation (MAG) characterizes Jupiter's planetary magnetic field and mag...
This thesis concerns spacecraft observations of magnetic field and plasma in Saturn’s near space env...
The magnetometer is a key instrument to the Solar Orbiter mission. The magnetic field is a fundament...
[1] Saturn’s magnetosphere is currently studied from the microphysical to the global scale by the Ca...
International audienceTwo distinct and variable rotation periods in Saturn’s radio emissions were re...
With spaceborne magnetic field measurements it is possible to investigate the interior of planets,mo...
The magnetometer is a key instrument to the Solar Orbiter mission. The magnetic field is a fundament...
The magnetometer instrument on the Solar Orbiter mission is designed to measure the magnetic field l...
The magnetometer measurements taken by Cassini have confirmed the unusual character of Saturn’s inte...
Magnetospheric and plasma science studies at Saturn offer a unique opportunity to explore in-depth t...
Observations performed by the radio and plasma wave science (RPWS) experiment on board the Cassini s...
The Pioneer Saturn vector helium magnetometer has detected a bow shock and magnetopause at Saturn an...
Abstract. The Cassini Plasma Spectrometer (CAPS) will make comprehensive three-dimensional mass-reso...
The Cassini mission entered the Grand Finale phase in April 2017 and executed 22.5 highly inclined, ...
The MAG (Magnetometer) instrument aboard the Venus Express spacecraft is designed to investigate the...
The Juno Magnetic Field investigation (MAG) characterizes Jupiter's planetary magnetic field and mag...