Physics of the Ion Composition Boundary: a comparative 3-D hybrid simulation study of Mars and Titan

Details Physics of the Ion Composition Boundary: a comparative 3-D hybrid simulation study of Mars and Titan Physics of the Ion Composition Boundary: a comparative 3-D hybrid simulation study of Mars and Titan

Feb 2007

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007angeo..25...99s&link_type=abstract

Annales Geophysicae, Volume 25, Issue 1, 2007, pp.99-115

Physics

16

Scientific paper

The plasma environments of Mars and Titan have been studied by means of a 3-D hybrid simulation code, treating the electrons as a massless, charge-neutralizing fluid, whereas ion dynamics are covered by a kinetic approach. As neither Mars nor Titan possesses a significant intrinsic magnetic field, the upstream plasma flow interacts directly with the planetary ionosphere. The characteristic features of the interaction region are determined as a function of the alfvénic, sonic and magnetosonic Mach number of the impinging plasma. For the Martian interaction with the solar wind as well as for the case of Titan being located outside Saturn's magnetosphere in times of high solar wind dynamic pressure, all three Mach numbers are larger than 1. In such a scenario, the interaction gives rise to a so-called Ion Composition Boundary, separating the ionospheric plasma from the ambient flow and being highly asymmetric with respect to the direction of the convective electric field. The formation of these features is explained by analyzing the Lorentz forces acting on ionospheric and ambient plasma particles. Titan's plasma environment is highly variable and allows various different combinations of the three Mach numbers. Therefore, the Ion Composition Boundary may vanish under certain circumstances. The relevant physical mechanism is illustrated as a function of the Mach numbers in the upstream plasma flow.

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