Add to ORKGFor more than thirty years the intense decametric radio emissions from Jupiter (DAM) and the corresponding auroral kilometric radiation from the Earth (AKR) have remained major radio science mysteries. Part of the problem, aside from their inherent complexity, has been the difficulty of measuring their source location and emission properties from limited observations. Progress has been made on this problem by locating the source directly, i.e., by analysis of the faraday rotation observed with Voyager as the wave path crossed the Io plasma torus, and indirectly by comparing the peak frequencies of the decametric emission with that at the foot of the Io flux tube. Progress was also made on the general question of how the emissions originate ...
Voyager plasma wave wideband frames from the Jovian encounters are analyzed. The 511 frames which we...
International audienceThe Io-Jupiter S-bursts are series of quasi-periodic impulsive decameter radio...
The Low Frequency Array (LOFAR) is an international radio telescope array, consisting of 38 stations...
The occurrence of Jupiter's decametric radio emission can be correlated with the central meridian lo...
Section A. Radio Emissions From Jupiter. The thesis begins with a detailed review of the observed ...
The radio emission from Jupiter in the decametric range (2 to 40 MHz) has been studied for three dec...
Long-term observations of Jupiter's decametric radiation have shown that a great part of emission is...
The Voyager 1 and Voyager 2 Planetary Radio Astronomy Experiments (PRA) have produced the finest set...
We investigate the beaming of 11 Io-Jupiter decametric (Io-DAM) emissions observed by Juno/Waves, th...
This thesis describes observations of the flne structure in Jovian decametric radiation made at Grah...
Jovian decametric (DAM) and hectometric (HOM) emissions were first observed over the entire spectrum...
Results are reported from the first low frequency radio receiver to be transported into the Jupiter ...
Auroral emission originating at the foot of the Io-associated flux tube at Jupiter has been detected...
International audienceThe occurrence probability of the Io-controlled Jovian decameter radio emissio...
International audienceJupiter is a complex and at the same time very powerful radio source in the de...
Voyager plasma wave wideband frames from the Jovian encounters are analyzed. The 511 frames which we...
International audienceThe Io-Jupiter S-bursts are series of quasi-periodic impulsive decameter radio...
The Low Frequency Array (LOFAR) is an international radio telescope array, consisting of 38 stations...
The occurrence of Jupiter's decametric radio emission can be correlated with the central meridian lo...
Section A. Radio Emissions From Jupiter. The thesis begins with a detailed review of the observed ...
The radio emission from Jupiter in the decametric range (2 to 40 MHz) has been studied for three dec...
Long-term observations of Jupiter's decametric radiation have shown that a great part of emission is...
The Voyager 1 and Voyager 2 Planetary Radio Astronomy Experiments (PRA) have produced the finest set...
We investigate the beaming of 11 Io-Jupiter decametric (Io-DAM) emissions observed by Juno/Waves, th...
This thesis describes observations of the flne structure in Jovian decametric radiation made at Grah...
Jovian decametric (DAM) and hectometric (HOM) emissions were first observed over the entire spectrum...
Results are reported from the first low frequency radio receiver to be transported into the Jupiter ...
Auroral emission originating at the foot of the Io-associated flux tube at Jupiter has been detected...
International audienceThe occurrence probability of the Io-controlled Jovian decameter radio emissio...
International audienceJupiter is a complex and at the same time very powerful radio source in the de...
Voyager plasma wave wideband frames from the Jovian encounters are analyzed. The 511 frames which we...
International audienceThe Io-Jupiter S-bursts are series of quasi-periodic impulsive decameter radio...
The Low Frequency Array (LOFAR) is an international radio telescope array, consisting of 38 stations...