Energetic Charged-Particle Phenomena in the Jovian Magnetosphere: First Results from the Ulysses COSPIN Collaboration

The Ulysses spacecraft made the first exploration of the region of Jupiter's magnetosphere at high Jovigraphic latitudes (∼37� south) on the dusk side and reached higher magnetic latitudes (∼49� north) on the day side than any previous mission to Jupiter. The cosmic and solar particle investigations (COSPIN) instrumentation achieved a remarkably well integrated set of observations of energetic charged particles in the energy ranges of ∼1 to 170 megaelectron volts for electrons and 0.3 to 20 megaelectron volts for protons and heavier nuclei. The new findings include (i) an apparent polar cap region in the northern hemisphere in which energetic charged particles following Jovian magnetic field lines may have direct access to the interplanetary medium, (ii) high-energy electron bursts (rise times ≤ 1 minute and energies extending to > ∼17 megaelectron volts) on the dusk side that are apparently associated with field-aligned currents and radio burst emissions, (iii) persistence of the global 10-hour relativistic electron "clock" phenomenon throughout Jupiter's magnetosphere, (iv) on the basis of charged-particle measurements, apparent dragging of magnetic field lines at large radii in the dusk sector toward the tail, and (v) consistent outflow of megaelectron volt electrons and large-scale departures from corotation for nucleons.

[1]  R G Stone,et al.  Ulysses Radio and Plasma Wave Observations in the Jupiter Environment , 1992, Science.

[2]  G. Gisler,et al.  Jupiter's Magnetosphere: Plasma Description from the Ulysses Flyby , 1992, Science.

[3]  E. W. Hones The recovery phase of substorms , 1992 .

[4]  A. Balogh,et al.  The Ulysses Cosmic Ray and Solar Particle Investigation , 1992 .

[5]  J. Connerney,et al.  Pioneer 11 observations of effects of Ganymede and Callisto on Jupiter's trapped radiation , 1986 .

[6]  J. Eraker,et al.  Acceleration of charged particles in Mercury's magnetosphere , 1986 .

[7]  J. Connerney,et al.  Voyager 1 assessment of Jupiter's planetary magnetic field , 1982 .

[8]  A. W. Schardt,et al.  Energetic particles in the predawn magnetotail of Jupiter , 1981 .

[9]  J. Connerney,et al.  Modeling the Jovian current sheet and inner magnetosphere , 1981 .

[10]  A. W. Schardt,et al.  Energetic protons in the Jovian magnetosphere. [0. 2 to 20 MeV] , 1979 .

[11]  A. Nishida Outward diffusion of energetic particles from the Jovian radiation belt , 1976 .

[12]  J. O'Gallagher,et al.  Jupiter Revisited: First Results from the University of Chicago Charged Particle Experiment on Pioneer 11 , 1975, Science.

[13]  J. Simpson,et al.  Bursts of relativistic electrons from Jupiter observed in interplanetary space with the time variation of the planetary rotation period , 1974 .

[14]  J. Simpson,et al.  Evidence From Charged Particle Studies for the Distortion of the , 1974 .