| Literature DB >> 17932283 |
R L McNutt1, D K Haggerty, M E Hill, S M Krimigis, S Livi, G C Ho, R S Gurnee, B H Mauk, D G Mitchell, E C Roelof, D J McComas, F Bagenal, H A Elliott, L E Brown, M Kusterer, J Vandegriff, S A Stern, H A Weaver, J R Spencer, J M Moore.
Abstract
When the solar wind hits Jupiter's magnetic field, it creates a long magnetotail trailing behind the planet that channels material out of the Jupiter system. The New Horizons spacecraft traversed the length of the jovian magnetotail to >2500 jovian radii (RJ; 1 RJ identical with 71,400 kilometers), observing a high-temperature, multispecies population of energetic particles. Velocity dispersions, anisotropies, and compositional variation seen in the deep-tail (greater, similar 500 RJ) with a approximately 3-day periodicity are similar to variations seen closer to Jupiter in Galileo data. The signatures suggest plasma streaming away from the planet and injection sites in the near-tail region (approximately 200 to 400 RJ) that could be related to magnetic reconnection events. The tail structure remains coherent at least until it reaches the magnetosheath at 1655 RJ.Mesh:
Substances:
Year: 2007 PMID: 17932283 DOI: 10.1126/science.1148025
Source DB: PubMed Journal: Science ISSN: 0036-8075 Impact factor: 47.728