Martian planetopause as seen by the plasma wave system onboard Phobos 2

Details Martian planetopause as seen by the plasma wave system onboard Phobos 2 Martian planetopause as seen by the plasma wave system onboard Phobos 2

Nov 1996

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1996jgr...10124965t&link_type=abstract

Journal of Geophysical Research, Volume 101, Issue A11, p. 24965-24978

Physics

30

Ionosphere: Planetary Ionospheres, Magnetospheric Physics: Planetary Magnetospheres, Magnetospheric Physics: Plasma Waves And Instabilities, Magnetospheric Physics: Solar Wind Interactions With Unmagnetized Bodies

Scientific paper

The existence of a plasma boundary between the bow shock and the atmosphere of Mars has been confirmed by the Phobos 2 observations. This boundary is called planetopause, magnetopause, ion-composition boundary or protonopause, depending upon the authors. A careful examination of plasma wave system (PWS) data has revealed that planetopause signatures are generally clear and not questionable, enabling the calculation of the mean planetopause position up to 16 Martian radii in the distant tail. The planetopause model derived from PWS measurements is compared with models calculated from data sets obtained with other instruments on Phobos 2. With the exception of the transition plasma layer, called mass-loading boundary by the Automatic Space Plasma Experiment with a rotating analyzer (ASPERA) investigators, the published planetopause, magnetopause/areomagnetopause and ion-composition boundary locations are similar to the planetopause locations deduced from PWS data. This would suggest that, despite their different names, these boundaries correspond to the same plasma transition region. The PWS observations show that the planetopause position varies in the same way as does the bow shock position and is not significantly affected by the solar wind ram pressure. The absence of correlation between the planetopause position and solar wind ram pressure raises serious questions about the role that possible intrinsic magnetic field may play at the Martian planetopause. Finally, the planetopause is believed to be an ion-composition discontinuity rather than the ``obstacle'' predicted by gasdynamic models.

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