Results 121 to 130 of about 300 (160)
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The Solar Wind Interaction with Planetary Magnetospheres
2005The solar wind interaction with planetary magnetospheres is a multifarious topic of which our understanding continues to grow as we obtain more detailed observations and more capable numerical codes. We attempt to explain how the system functions by examining the output of models of increasing sophistication.
C. T. Russell +4 more
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Dust waves in rotating planetary magnetospheres
AIP Conference Proceedings, 2005Low frequency electrostatic drift and acoustic waves are studied in rotating dusty plasmas. Linear dispersion relation is found. It is pointed out that rotation of the planet can introduce dust drift waves through Coriolis force in the planetary magnetospheres. This mode can couple with dust acoustic mode. Coriolis force effect may give rise to dipolar
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Solar Wind and planetary magnetospheres
2015Solar Wind interacts with solar system objects by exchanging momentum and energy. This transfer is particularly effective in the case of weakly magnetized bodies (Mars, Venus and comets) and small magnetosphere (Mercury).This interaction contributes to the erosion of the gaseous envelop and to the atmospheric dynamic and has therefore an important ...
Modolo, Ronan +5 more
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Identification of the planetary magnetosphere boundaries with the wavelet multi-resolution analysis
Journal of Atmospheric and Solar-Terrestrial Physics, 2022M J A Bolzan +2 more
exaly
Energetic Particles from Planetary Magnetospheres
2016It was not until the dawn of the space age that we discovered that the Earth’s magnetosphere was full of energetic particles. It was therefore reasonable to suppose that all planets with a strong magnetic field would have trapped energetic particles within their magnetosphere.
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