Blanc, M.; Andrews, D. J.; Coates, A. J.; Hamilton, D. C.; Jackman, C. M.; Jia, X.; Kotova, A.; Morooka, M.; Smith, H. T.; Westlake, J. H.: Saturn Plasma Sources and Associated Transport Processes. Space Science Reviews 192, pp. 237 - 283 (2015)
Kotova, A.; Roussos, E.; Krupp, N.; Dandouras, I.: Modeling of the energetic ion observations in the vicinity of Rhea and Dione. Icarus 258, pp. 402 - 417 (2015)
Beth, A.; Garnier, P.; Toublanc, D.; Dandouras, I.; Mazelle, C.; Kotova, A.: Modeling the satellite particle population in the planetary exospheres: Application to Earth, Titan and Mars. Icarus 227, pp. 21 - 36 (2014)
Krupp, N.; Roussos, E.; Kriegel, H.; Kollmann, P.; Kivelson, M. G.; Kotova, A.; Paranicas, C.; Mitchell, D. G.; Krimigis, S. M.; Khurana, K. K.: Energetic particle measurements in the vicinity of Dione during the three Cassini encounters 2005-2011. Icarus 226, pp. 617 - 628 (2013)
Roussos, E.; Andriopoulou, M.; Krupp, N.; Kotova, A.; Paranicas, C.; Krimigis, S. M.; Mitchell, D. G.: Numerical simulation of energetic electron microsignature drifts at Saturn: Methods and applications. Icarus 226 (2), pp. 1595 - 1611 (2013)
Kotova, A.; Roussos, E.; Krupp, N.; Dandouras, I.: Galactic Cosmic Rays in the inner magnetosphere of Saturn. European Geosciences Union General Assembly, Vienna, Austria (2015)
Kotova, A.; Roussos, E.; Krupp, N.; Dandouras, I.: Galactic Cosmic Rays tracing in the inner magnetosphere of Saturn. MIMI Team Meeting, Atlanta, Georgia, USA (2015)
Krupp, N.; Roussos, E.; Kotova, A.; Khurana, K. K.; Jones, G. H.; Simon, S.: Enceladus flybys in the view of energetic particles. European Planetary Science Congress EPSC , Nantes, France (2015)
Kotova, A.; Roussos, E.; Krupp, N.; Dandouras, I.: Galactic Cosmic Rays access to the upper atmosphere and rings of Saturn. AGU Fall Meeting, San Francisco, USA (2016)
The MPS instruments on board ESA’s JUICE spacecraft have successfully completed their commissioning in space - and delivered their first observational data.
A collision nearly 30 years ago permanently changed Jupiter's atmospheric chemistry; the aftermath is still helping to better understand the gas giant.
The launch was successful; the ESA’s space probe JUICE is now on its way to the Jupiter system. There, it will primarily study the gas giant's icy moons.