Journal article
Solar wind-magnetosphere interaction as simulated by a 3-D EM particle code
Results are presented for simulating the solar-wind-magnetosphere interaction with a new three-dimensional electromagnetic particle code. Previously, such global simulations were done with MHD codes while lower-dimensional particle or hybrid codes served to account for microscopic processes and such transport parameters as have to be introduced ad hoc in MHD.
The kinetic model presented attempts to combine the macroscopic and microscopic tasks. It relies only on the Maxwell curl equations and the Lorentz equation for particles, which are ideally suited for computers. The preliminary results shown are for an unmagnetized solar-wind plasma streaming past a dipolar magnetic field.
The results show the formation of a bow shock and a magnetotail, the penetration of energetic particles into cusp and radiation belt regions, and dawn-dusk asymmetries.<>
Language: | English |
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Publisher: | IEEE |
Year: | 1992 |
Pages: | 810,811,812,813,814,815,816 |
ISSN: | 19399375 and 00933813 |
Types: | Journal article |
DOI: | 10.1109/27.199533 |
Boundary conditions Electric shock Geometry Lorentz equation Magnetic fields Magnetic flux Magnetohydrodynamics Magnetosphere Maxwell curl equations Maxwell equations Microscopy Plasmas bow shock cusp dawn-dusk asymmetries dipolar magnetic field kinetic model magnetosphere magnetotail microscopic processes penetration of energetic particles radiation belt solar wind solar-wind-magnetosphere interaction three-dimensional electromagnetic particle code unmagnetized solar-wind plasma