Add to ORKGRadio emission from the direction of Uranus was detected in data from the radio astronomy experiment on the IMP-6 spacecraft. Previously, emission from the direction of Jupiter and Saturn was observed by the IMP-6 at a number of frequencies near 1 MHz during the period April 1971 to October 1972. These radio bursts were identified in the IMP-6 data through an analysis of the phase of the observed modulated signal detected from the spinning dipole antenna. This technique was applied to the direction of the planet Uranus with possible positive results. Over the approximately 500 days of data, three to six bursts with unique spectral characteristics were found. Identification with Uranus is confused by the likely presence of low level terrestr...
Results are reported from the first low frequency radio receiver to be transported into the Jupiter ...
International audienceIn the solar system, the magnetized planets are strong radio emitters, the str...
Like the magnetized planets in our Solar system, magnetized exoplanets should emit strongly at radio...
Progress under this grant has included identifying certain new radio emission components and determi...
Earth, Jupiter, and Saturn are sources of intense but sporadic bursts of electromagnetic radiation o...
The magnetospheres of three planets, Earth, Jupiter, and Saturn, are known to be sources of intense,...
Emission from the direction of the planet Saturn was observed by the IMP-6 spacecraft at 15 frequenc...
New, high-resolution spectrograms of the Voyager-2 radio observations at Uranus were produced from t...
Analysis of nonthermal radio emission data obtained by the Planetary Radio Astronomy (PRA) spectrome...
Hot Jupiters have been proposed as a likely population of low-frequency radio sources due to electro...
Jupiter's low-frequency radio emission were detected by the planetary radio astronomy instruments on...
International audienceWithin the solar system, X-ray emissions have been detected from every planet ...
The occurrence of Jupiter's decametric radio emission can be correlated with the central meridian lo...
Thesis: Ph. D. in Planetary Sciences, Massachusetts Institute of Technology, Department of Earth, At...
As part of a wider search for radio emission from nearby systems known or suspected to contain extra...
Results are reported from the first low frequency radio receiver to be transported into the Jupiter ...
International audienceIn the solar system, the magnetized planets are strong radio emitters, the str...
Like the magnetized planets in our Solar system, magnetized exoplanets should emit strongly at radio...
Progress under this grant has included identifying certain new radio emission components and determi...
Earth, Jupiter, and Saturn are sources of intense but sporadic bursts of electromagnetic radiation o...
The magnetospheres of three planets, Earth, Jupiter, and Saturn, are known to be sources of intense,...
Emission from the direction of the planet Saturn was observed by the IMP-6 spacecraft at 15 frequenc...
New, high-resolution spectrograms of the Voyager-2 radio observations at Uranus were produced from t...
Analysis of nonthermal radio emission data obtained by the Planetary Radio Astronomy (PRA) spectrome...
Hot Jupiters have been proposed as a likely population of low-frequency radio sources due to electro...
Jupiter's low-frequency radio emission were detected by the planetary radio astronomy instruments on...
International audienceWithin the solar system, X-ray emissions have been detected from every planet ...
The occurrence of Jupiter's decametric radio emission can be correlated with the central meridian lo...
Thesis: Ph. D. in Planetary Sciences, Massachusetts Institute of Technology, Department of Earth, At...
As part of a wider search for radio emission from nearby systems known or suspected to contain extra...
Results are reported from the first low frequency radio receiver to be transported into the Jupiter ...
International audienceIn the solar system, the magnetized planets are strong radio emitters, the str...
Like the magnetized planets in our Solar system, magnetized exoplanets should emit strongly at radio...