Physics
Scientific paper
Dec 2008
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2008agufm.p13b1326d&link_type=abstract
American Geophysical Union, Fall Meeting 2008, abstract #P13B-1326
Physics
6005 Atmospheres (1060), 6023 Comets: Dust Tails And Trails (6210), 6026 Ionospheres (2459), 6033 Magnetospheres (2756), 6050 Plasma And Mhd Instabilities (2149, 2752, 7836)
Scientific paper
Pluto's low gravity implies that the atmosphere is only weakly bound and significant hydrodynamic outflow can exist. Though surface spectroscopy of Pluto has revealed methane frost the dominant escaping neutral gas is thought to be N2. These escaping neutrals are photoionized and the heavy ions (N2+) move away from Pluto in the direction perpendicular to the solar wind flow (i.e. nearly unmagnetized relative to the length scales of the plasma interaction region). The turning distance of the solar wind protons at the magnetic pileup boundary is large compared to the interaction region. As a result, large ion gyroradius affects determine Pluto's highly asymmetric interaction with the solar wind. We use a three-dimensional hybrid code (fluid electrons, kinetic ions) to investigate the geometry of the interaction region for a variety of of possible atmospheric escape rates in anticipation of the New Horizons encounter with Pluto. We find considerable structuring in the wake region due to bi-ion waves and Kelvin-Helmholtz waves. The shock structures vary from a simple Mach cone for low escape rates (~ 2 × 1026 s-1) to a full detached bow shock for large escape rates (~ 2 × 1028 s-1).
Bagenal Fran
Delamere Peter
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