Add to ORKGWideband waveform data obtained by the plasma wave instruments onboard the Voyager 1 and 2 spacecraft have been used to study micron-sized dust particles in the vicinity of Jupiter. The technique used was developed during the flybys of Saturn, Uranus, and Neptune, and makes use of the fact that a particle striking the spacecraft at 10-20 km/s causes a voltage pulse in the plasma wave receiver. The waveform of the voltage pulse is much different than the waveform of plasma waves and provides a highly reliable method of detecting micron-sized dust particles. Although the dust impact rate observed in the vicinity of Jupiter is much lower than the rates at Saturn, Uranus, and Neptune, the particles are easily detectable. Approximately 1200 48-s...
The occurrence of Jupiter's decametric radio emission can be correlated with the central meridian lo...
Context. Impacts of dust grains on spacecraft are known to produce typical impulsive signals in the ...
The Dust Detector System onboard Galileo records dust impacts in the Jupiter system. Impact events a...
During the Voyager 1 and 2 flybys of the outer planets it has been demonstrated that the plasma wave...
The Planetary Radio Astronomy (PRA) instrument detected large numbers of dust particles during the V...
Spacecraft investigations during the last ten years have vastly improved our knowledge about dust in...
Voyager plasma wave wideband frames from the Jovian encounters are analyzed. The 511 frames which we...
International audienceWe analyse wave observations by the Cassini/RPWS instrument performed during t...
Results are reported from the first low frequency radio receiver to be transported into the Jupiter ...
Jupiter was discovered to be a source of high speed dust particles by the Ulysses spacecraft in 1992...
Understanding of wave environments is critical for the understanding of how particles are accelerate...
High-velocity submicrometre-sized dust particles expelled from the jovian system have been identifie...
High‐velocity impacts of interplanetary dust grains with spacecraft can give rise to transient plasm...
The Juno spacecraft successfully entered Jupiter orbit on 5 July 2016. One of Juno’s primary objecti...
As the data from space missions and laboratories improve, a research domain combining plasmas and ch...
The occurrence of Jupiter's decametric radio emission can be correlated with the central meridian lo...
Context. Impacts of dust grains on spacecraft are known to produce typical impulsive signals in the ...
The Dust Detector System onboard Galileo records dust impacts in the Jupiter system. Impact events a...
During the Voyager 1 and 2 flybys of the outer planets it has been demonstrated that the plasma wave...
The Planetary Radio Astronomy (PRA) instrument detected large numbers of dust particles during the V...
Spacecraft investigations during the last ten years have vastly improved our knowledge about dust in...
Voyager plasma wave wideband frames from the Jovian encounters are analyzed. The 511 frames which we...
International audienceWe analyse wave observations by the Cassini/RPWS instrument performed during t...
Results are reported from the first low frequency radio receiver to be transported into the Jupiter ...
Jupiter was discovered to be a source of high speed dust particles by the Ulysses spacecraft in 1992...
Understanding of wave environments is critical for the understanding of how particles are accelerate...
High-velocity submicrometre-sized dust particles expelled from the jovian system have been identifie...
High‐velocity impacts of interplanetary dust grains with spacecraft can give rise to transient plasm...
The Juno spacecraft successfully entered Jupiter orbit on 5 July 2016. One of Juno’s primary objecti...
As the data from space missions and laboratories improve, a research domain combining plasmas and ch...
The occurrence of Jupiter's decametric radio emission can be correlated with the central meridian lo...
Context. Impacts of dust grains on spacecraft are known to produce typical impulsive signals in the ...
The Dust Detector System onboard Galileo records dust impacts in the Jupiter system. Impact events a...