STAR - Space sciences, Technologies and Astrophysics Research - ULiège
Disciplines :
Space science, astronomy & astrophysics
Author, co-author :
Roussos, E.
Kollmann, P.
Krupp, N.
Kotova, A.
Regoli, L.
Paranicas, C.
Mitchell, D. G.
Krimigis, S. M.
Hamilton, D.
Brandt, P.
Carbary, J.
Christon, S.
Dialynas, K.
Dandouras, I.
Hill, M. E.
Ip, W. H.
Jones, G. H.
Livi, S.
Mauk, B. H.
Palmaerts, Benjamin ; Université de Liège - ULiège > Département d'astrophys., géophysique et océanographie (AGO) > Labo de physique atmosphérique et planétaire (LPAP)
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S. M. Krimigis et al., Dynamics of Saturn's magnetosphere from MIMI during Cassini's orbital insertion. Science 307, 1270-1273 (2005). doi: 10.1126/science.1105978; pmid: 15731445
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K. Dialynas et al., The extended Saturnian neutral cloud as revealed by global ENA simulations using Cassini/MIMI measurements. J. Geophys. Res. 118, 3027-3041 (2013). doi: 10.1002/jgra.50295
P. Kollmann et al., A heavy ion and proton radiation belt inside of Jupiter's rings. Geophys. Res. Lett. 44, 5259-5268 (2017). doi: 10.1002/2017GL073730
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R. S. Selesnick, M. K. Hudson, B. T. Kress, Direct observation of the CRAND proton radiation belt source. J. Geophys. Res. 118, 7532-7537 (2013). doi: 10.1002/2013JA019338
E. Roussos et al., Long- and short-term variability of Saturn's ionic radiation belts. J. Geophys. Res. 116, A02217 (2011). doi: 10.1029/2010JA015954
P. Kollmann, E. Roussos, A. Kotova, C. Paranicas, N. Krupp, The evolution of Saturn's radiation belts modulated by changes in radial diffusion. New Astron. 1, 872-877 (2017). doi: 10.1038/s41550-017-0287-x
P. Kollmann et al., MeV proton flux predictions near Saturn's D ring. J. Geophys. Res. 120, 8586-8602 (2015). doi: 10.1002/ 2015JA021621; pmid: 27812437
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P. Kollmann, E. Roussos, C. Paranicas, N. Krupp, D. K. Haggerty, Processes forming and sustaining Saturn's proton radiation belts. Icarus 222, 323-341 (2013). doi: 10.1016/j.icarus.2012.10.033
J. F. Cooper, Nuclear cascades in Saturn's rings: Cosmic ray albedo neutron decay and origins of trapped protons in the inner magnetosphere. J. Geophys. Res. 88, 3945-3954 (1983). doi: 10.1029/JA088iA05p03945
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T. P. Armstrong et al., Energetic ions trapped in Saturn's inner magnetosphere. Planet. Space Sci. 57, 1723-1731 (2009). doi: 10.1016/j.pss.2009.03.008
E. Roussos et al., Sources, sinks and transport of energetic electrons near Saturn's main rings. Geophys. Res. Lett. 10.1029/2018GL078097 (2018).
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S. M. Krimigis, T. P. Armstrong, Two-component proton spectra in the inner Saturnian magnetosphere. Geophys. Res. Lett. 9, 1143-1146 (1982). doi: 10.1029/GL009i010p01143
R. E. Vogt et al., Energetic Charged Particles in Saturn's Magnetosphere: Voyager 2 Results. Science 215, 577-582 (1982). doi: 10.1126/science.215.4532.577; pmid: 17771281
T. J. Birmingham, Charged particle motions in the distended magnetospheres of Jupiter and Saturn. J. Geophys. Res. 87, 7421-7430 (1982). doi: 10.1029/JA087iA09p07421
M. F. Thomsen, J. A. Van Allen, Motion of trapped electrons and protons in Saturn's inner magnetosphere. J. Geophys. Res. 85, 5831-5834 (1980). doi: 10.1029/JA085iA11p05831
J. F. Cooper, R. E. Johnson, P. Kollmann, E. Roussos, E. C. Sittler, "Plasma, neutral atmosphere, and energetic radiation environments of planetary rings," in Planetary Ring Systems: Properties, Structure, and Evolution, M. Tiscareno, C. Murray, Eds. (Cambridge Planetary Science Series, Cambridge Univ. Press, 2018), pp. 363-398.
R. S. Selesnick et al., Observations of the inner radiation belt: CRAND and trapped solar protons. J. Geophys. Res. 119, 6541-6552 (2014). doi: 10.1002/2014JA020188
O. Adriani et al., Trapped proton fluxes at low Earth orbits measured by the PAMELA experiment. Astrophys. J. 799, L4 (2015). doi: 10.1088/2041-8205/799/1/L4
S. J. Robbins, G. R. Stewart, M. C. Lewis, J. E. Colwell, M. Sremčević, Estimating the masses of Saturn's A and B rings from high-optical depth N-body simulations and stellar occultations. Icarus 206, 431-445 (2010). doi: 10.1016/ j.icarus.2009.09.012
J. E. Colwell et al., "The structure of Saturn's rings" in Saturn from Cassini-Huygens, M. K. Dougherty, L. W. Esposito, S. M. Krimigis, Eds. (Springer, 2009), pp. 375-412.
J. F. Cooper, J. H. Eraker, J. A. Simpson, The secondary radiation under Saturn's A-B-C rings produced by cosmic ray interactions. J. Geophys. Res. 90, 3415-3427 (1985). doi: 10.1029/JA090iA04p03415
M. M. Hedman, P. D. Nicholson, The B-ring's surface mass density from hidden density waves: Less than meets the eye? Icarus 279, 109-124 (2016). doi: 10.1016/ j.icarus.2016.01.007
J. A. Van Allen, Absorption of energetic protons by Saturn's ring G. J. Geophys. Res. 88, 6911-6918 (1983). doi: 10.1029/ JA088iA09p06911
M. M. Hedman et al., The source of Saturn's G ring. Science 317, 653-656 (2007). doi: 10.1126/science.1143964; pmid: 17673659
C. Paranicas, A. F. Cheng, A Model of Satellite Microsignatures for Saturn. Icarus 125, 380-396 (1997). doi: 10.1006/ icar.1996.5635
R. S. Selesnick, D. N. Baker, S. G. Kanekal, V. C. Hoxie, X. Li, Modeling the Proton Radiation Belt With Van Allen Probes Relativistic Electron-Proton Telescope Data. J. Geophys. Res. 123, 685-697 (2018). doi: 10.1002/2017JA024661
R. S. Selesnick, M. D. Looper, R. A. Mewaldt, A theoretical model of the inner proton radiation belt. Space Weather 5, S04003 (2007). doi: 10.1029/2006SW000275
P. Kollmann et al., Energetic particle phase space densities at Saturn: Cassini observations and interpretations. J. Geophys. Res. 116, A05222 (2011). doi: 10.1029/2010JA016221
E. Roussos et al., Drift-resonant, relativistic electron acceleration at the outer planets: Insights from the response of Saturn's radiation belts to magnetospheric storms. Icarus 305, 160-173 (2018). doi: 10.1016/j.icarus.2018.01.016
R. S. Selesnick, R. A. Mewaldt, Atmospheric production of radiation belt light isotopes. J. Geophys. Res. 101, 19745-19757 (1996). doi: 10.1029/96JA01746
S. M. Krimigis, N. Sergis, D. G. Mitchell, D. C. Hamilton, N. Krupp, A dynamic, rotating ring current around Saturn. Nature 450, 1050-1053 (2007). doi: 10.1038/nature06425; pmid: 18075586
J. E. P. Connerney et al., A New Model of Jupiter's Magnetic Field From Juno's First Nine Orbits. Geophys. Res. Lett. 45, 2590-2596 (2018). doi: 10.1002/2018GL077312