Results 91 to 100 of about 6,328 (164)

On the 3D Transport of Low-energy Galactic Cosmic-ray and Jovian Electrons in the Inner Heliosphere in the Presence of a Fisk-type Heliospheric Magnetic Field

The Astrophysical Journal
Modeling the transport of low-energy (1−10 MeV) cosmic-ray electrons can lead to valuable insights as to the behavior of the heliospheric magnetic field (HMF), due to the fact that the mean free path (MFP) of these particles parallel to the HMF is ...
N. E. Engelbrecht
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Jovian Injections Observed at High Latitude

Geophysical Research Letters, 2019
The polar orbit of Juno at Jupiter provides a unique opportunity to observe high‐latitude energetic particle injections. We measure energy‐dispersed impulsive injections of protons and electrons. Ion injection signatures are just as prevalent as electron
D. K. Haggerty, B. H. Mauk, C. P. Paranicas, G. Clark, P. Kollmann, A. M. Rymer, G. R. Gladstone, T. K. Greathouse, S. J. Bolton, S. M. Levin   +9 more
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Jovian planet missions for solar cell powered electric propulsion spacecraft [PDF]

, 1968
C. ZOLA
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Energetic particles in the Jovian magnetosphere [PDF]

, 1974
J. H. Trainor, F. B. McDonald, B. J. Teegarden, W. R. Webber, E. C. Roelof   +4 more
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First results on Jovian lightning [PDF]

, 1979
A. F. Cook, T. Duxbury, G. E. Hunt
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Energetic protons in the Jovian magnetosphere [PDF]

, 1979
F. B. McDonald, A. W. Schardt, J. H. Trainor   +2 more
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Three-dimensional Magnetohydrodynamic Simulations of Periodic Variations of Ganymede’s Footprint

The Astrophysical Journal
Alfvénic power is generated through the interaction between the mini-magnetosphere of Ganymede and the corotating flow of the Jovian plasma, contributing to the formation of the Ganymede auroral footprint at Jupiter’s ionosphere.
Tao Yan, Binzheng Zhang, Junjie Chen, Zhiqi Zheng, Ziyi Yang, Shengyi Ye, Jun Cui   +6 more
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A look-back to the 50-year exploration of Jupiter's atmosphere

地球与行星物理论评
Jupiter is the biggest and fastest-rotating planet in our solar system. As a gas giant without land–sea distribution or topography, Jupiter is an ideal natural laboratory for studying atmospheric dynamics.
Xinyi Song, Jun Yang, Yong Wei
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Velocity variations of an equatorial plume throughout a Jovian year [PDF]

, 1976
Elmer J. Reese, R. F. Beebe
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Magnetic Signatures of the Interaction Between Europa and Jupiter's Magnetosphere During the Juno Flyby

Geophysical Research Letters
Based on a hybrid model of Europa's magnetospheric interaction, we provide context for the magnetic field perturbations observed by the Juno spacecraft during its only close flyby of the moon in September 2022. By systematically varying the incident flow
Peter Addison, C. Michael Haynes, Aaron M. Stahl, Lucas Liuzzo, Sven Simon   +4 more
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