Browsing by Author "Cecconi, B."
Now showing items 1-7 of 7
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Auroral emissions and inner magnetospheric dynamics during Earth's response to the 28th October 2021 Coronal Mass Ejection
Waters, J. E.; Jackman, C. M.; Whiter, D. K.; Fogg, A. R.; Lamy, L.; Carter, J. A.; Coxon, J. C.; Fryer, L.; Louis, C. K.; Paxton, L. J.; Briand, C.; Cecconi, B.; Issautier, K.; Bonnin, X.; Gallagher, P. (Dublin Institute for Advanced Studies, 2023)On 28th October 2021 the Sun released a large Coronal Mass Ejection (CME) in Earth's direction. An X1.0 class solar flare and a rare ground level enhancement (GLE) were observed, along with bright solar radio bursts. Here ... -
Automatic detection of solar radio bursts in NenuFAR observations
Murphy, P. C.; Cecconi, B.; Briand, C.; Aicardi, S. (2023)Solar radio bursts are some of the brightest emissions at radio frequencies in the solar system. The emission mechanisms that generate these bursts offer a remote insight into physical processes in solar coronal plasma, ... -
A consolidated catalogue of jovian decametric radio observations observed in Nançay from January 1978 to December 1990
Cecconi, B.; Debisshop, L.; Lamy, L.; Genova, F. (2023)A series of five Jovian decametric radio emission catalogues covering 13 years of observations (1978 to 1990) and published between 1981 and 1993 has been compiled after a digitisation process. The new catalogue has been ... -
Follow-up radio observations of the τ Boötis exoplanetary system: preliminary results from NenuFAR
Turner, J. D.; Zarka, P.; Grießmeier, J.-M.; Mauduit, E.; Lamy, L.; Girard, J. N.; Kimura, T.; Cecconi, B.; Koopmans, L. V. E. (2023)Studying the magnetic fields of exoplanets will provide valuable information about their interior structures, atmospheric properties (escape and dynamics), and potential habitability. One of the most promising methods to ... -
A method for the automatic detection of solar type III radio bursts with Wind/Waves
Waters, J. E.; Jackman, C. M.; Fogg, A. R.; Louis, C.; Lamy, L.; Briand, C.; Bonnin, X.; Maksimovic, M.; Murphy, P. C.; Cecconi, B.; Issautier, K.; Whiter, D. K. (2023)Solar type III radio bursts have a characteristic signature in frequency-time dynamic spectrograms and provide important insight into the dynamics of the Sun and solar wind. Direct physical inferences of the source electrons ... -
Predictions for Uranus-moons radio emissions and comparison with Voyager 2/PRA observations
Jackman, C. M.; Cecconi, B.; Hess, S. L. G.; Louis, C. K.; Lamy, L. (2023)Jupiter's and Saturn's moons are known to induce auroral emission in the Ultraviolet wavelengths. At Jupiter, the moons Io, Europa and Ganymede are also responsible for powerful decametric radio emissions, driven by the ... -
Re-exploring the radio spectrum of Uranus in orbit: science case and digital high-frequency receiver
Lamy, L.; Cecconi, B.; Dekkali, M.; Zarka, P.; Briand, C.; Moncuquet, M.; Pantellini, F.; Griton, L.; Boudouma, A.; Bonnin, X.; Astier, P.-L.; Dias, D.; Gamage, V.; Collet, B.; Louis, C. (2023)Among the known planetary magnetospheres, those of Uranus and Neptune display very similar radio environments so that they were referred to as radio twins. Their pioneering exploration by the Voyager 2 Planetary Radio ...