Add to ORKGThe Low Frequency Array (LOFAR) is an international radio telescope array, consisting of 38 stations in the Netherlands and 14 international stations spread over Europe. Here we present an observation method to study the jovian decametric radio emissions from several LOFAR stations (here DE604, FR606 and IE613), at high temporal and spectral resolution. This method is based on prediction tools, such as radio emission simulations and probability maps, and data processing. We report an observation of Io-induced decametric emission from June 2021, and a first case study of the substructures that compose the macroscopic emissions (called millisecond bursts). The study of these bursts make it possible to determine the electron populations at the...
Context. The magnetized solar system planets are strong radio emitters and theoretical studies sugge...
International audienceThe occurrence probability of the Io-controlled Jovian decameter radio emissio...
Long-term observations of Jupiter's decametric radiation have shown that a great part of emission is...
The Low Frequency Array (LOFAR) is an international radio telescope array, consisting of 38 stations...
The Low Frequency Array (LOFAR) is an international radio telescope array, consisting of 38 stations...
This dataset contains observations of the Jovian decametric radio emission induced by Io, measured o...
We investigate the beaming of 11 Io-Jupiter decametric (Io-DAM) emissions observed by Juno/Waves, th...
International audienceJupiter is a complex and at the same time very powerful radio source in the de...
The european radio telescope LOFAR is in its commissioning phase. It is a huge interferometer operat...
Section A. Radio Emissions From Jupiter. The thesis begins with a detailed review of the observed ...
International audienceThe prominent component of Jovian decametric (auroral) emissions is induced by...
International audiencePlanetary radio astronomy mostly concerns plasma phenomena at low frequencies ...
The occurrence of Jupiter's decametric radio emission can be correlated with the central meridian lo...
Context. The magnetized solar system planets are strong radio emitters and theoretical studies sugge...
International audienceThe occurrence probability of the Io-controlled Jovian decameter radio emissio...
Long-term observations of Jupiter's decametric radiation have shown that a great part of emission is...
The Low Frequency Array (LOFAR) is an international radio telescope array, consisting of 38 stations...
The Low Frequency Array (LOFAR) is an international radio telescope array, consisting of 38 stations...
This dataset contains observations of the Jovian decametric radio emission induced by Io, measured o...
We investigate the beaming of 11 Io-Jupiter decametric (Io-DAM) emissions observed by Juno/Waves, th...
International audienceJupiter is a complex and at the same time very powerful radio source in the de...
The european radio telescope LOFAR is in its commissioning phase. It is a huge interferometer operat...
Section A. Radio Emissions From Jupiter. The thesis begins with a detailed review of the observed ...
International audienceThe prominent component of Jovian decametric (auroral) emissions is induced by...
International audiencePlanetary radio astronomy mostly concerns plasma phenomena at low frequencies ...
The occurrence of Jupiter's decametric radio emission can be correlated with the central meridian lo...
Context. The magnetized solar system planets are strong radio emitters and theoretical studies sugge...
International audienceThe occurrence probability of the Io-controlled Jovian decameter radio emissio...
Long-term observations of Jupiter's decametric radiation have shown that a great part of emission is...