Physics – Plasma Physics
Scientific paper
Dec 1981
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1981jgr....8611401s&link_type=abstract
Journal of Geophysical Research, vol. 86, Dec. 1, 1981, p. 11401-11418.
Physics
Plasma Physics
115
Bow Waves, Dynamic Models, Magnetohydrodynamic Flow, Shock Waves, Solar Wind, Terrestrial Planets, Axisymmetric Bodies, Ellipticity, Gas Dynamics, Plasma Physics, Propagation Modes, Wave Propagation, Imp 3, Imp 4, Heos 1, Prognoz 1, Prognoz 2, Venera Probes, Spacecraft, Mars 2, Mars 3, Mars 5, Planets, Terrestrial Planets, Solar Wind, Flows, Bow Shock, Position (Location), Shape, Models, Techniques, Review, Imf, Venus, Earth, Mars, Magnetosphere, Pressure, Dynamics, Symmetry, Waves, Mapping, Data, Magnetic
Scientific paper
A three-parameter method for modeling the position and shape of planetary bow waves was chosen to model the near portion of the Venus, earth and Mars bow shocks, and its results were compared with those of models using one to six free variables. It was found that the relative effective shapes of the near Martian, Cytherean, and terrestrial bow shocks are ellipsoidal, paraboloidal, and hyperboloidal, respectively, in response to the increasing bluntness of the obstacles that the planets present to the solar wind. No significant deviations from axial symmetry were found when the near bow waves of the earth and Venus were mapped into the aberrated terminator plane, in agreement with gas dynamic theory predictions neglecting the effects of the IMF because of their minuteness.
Holzer Robert E.
Slavin James Arthur
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