Cite abstracts as Author(s) (2010), Title, Abstract xxxxx-xxxx presented at 2010 Fall Meeting, AGU, San Francisco, Calif., 13-17 Dec.
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withers
HR: 1340h
AN: P53E-1557 Poster
TI: 1½ Dimensional Model of the Martian Ionosphere
AU: *Matta, M
EM: majdm@bu.edu
AF: Department of Astronomy, Boston University, Boston, MA, USA
AU: Withers, P
EM: withers@bu.edu
AF: Department of Astronomy, Boston University, Boston, MA, USA
AU: Lollo, A
EM: alollo@bu.edu
AF: Center for Space Physics, Boston University, Boston, MA, USA
AU: Mendillo, M
EM: mendillo@bu.edu
AF: Department of Astronomy, Boston University, Boston, MA, USA
AB:
A meridional model of the Martian upper atmosphere has been developed
that considers altitudes between 80 and 400 km as one dimension and a
600 km span of flat-Martian-surface with fixed solar zenith angle as the
partial horizontal dimension. The model assumes solar medium conditions
and a standard neutral atmosphere to generate an ionosphere of the five
major ions (O2+, O+, CO2+, N2+ and NO+).
The processes that dominate the production, loss and transport of ions
are photochemistry and diffusion (both vertical and along the meridian).
In this work, the modeled effects of a spatially-confined dipole-like
crustal magnetic field on the ionosphere are studied. While the electron
and major ion densities remain largely unaffected at peak density
altitudes, differences emerge at altitudes above 220 km that include
species-dependent vertical fluxes in regions of high inclination angles.
DE: [2431] IONOSPHERE / Ionosphere/magnetosphere interactions
DE: [2753] MAGNETOSPHERIC PHYSICS / Numerical modeling
DE: [5435] PLANETARY SCIENCES: SOLID SURFACE PLANETS / Ionospheres
SC: Planetary Sciences (P)
MN: 2010 Fall Meeting