Description Electron and ion density distributions in the XZ plane using three different models for case 1. The black solid lines and dashed lines are bow shock and induced magnetosphere boundary locations,...
Article Title: Importance of Ambipolar Electric Field in Driving Ion Loss From Mars: Results From a Multifluid MHD Model With the Electron Pressure Equation Included
Publication Title: Journal of Geophysical Research: Space Physics

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Description Plasma properties along the subsolar line for multispecies (MS), multifluid (MF), and multifluid magnetohydrodynamic model with electron pressure (MFpe) models for case 1. Results from MS model are...
Article Title: Importance of Ambipolar Electric Field in Driving Ion Loss From Mars: Results From a Multifluid MHD Model With the Electron Pressure Equation Included
Publication Title: Journal of Geophysical Research: Space Physics

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Description Pressure gradient forces in the X (top panels) and Y direction (bottom panels) for ion, electron, and total pressure in the equatorial (XY) plane for the multifluid magnetohydrodynamic model with...
Article Title: Importance of Ambipolar Electric Field in Driving Ion Loss From Mars: Results From a Multifluid MHD Model With the Electron Pressure Equation Included
Publication Title: Journal of Geophysical Research: Space Physics

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Description Magnetic field components and current system in the equatorial (XY) plane for the multifluid magnetohydrodynamic model with electron pressure model for case 1.
Article Title: Importance of Ambipolar Electric Field in Driving Ion Loss From Mars: Results From a Multifluid MHD Model With the Electron Pressure Equation Included
Publication Title: Journal of Geophysical Research: Space Physics

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Description Contour plots of plasma flow speed (left panels) and magnetic field strength (right panels) in the XZ plane for the multifluid magnetohydrodynamic model with electron pressure model for cases 2...
Article Title: Importance of Ambipolar Electric Field in Driving Ion Loss From Mars: Results From a Multifluid MHD Model With the Electron Pressure Equation Included
Publication Title: Journal of Geophysical Research: Space Physics

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Description 2‐D plot of the J × B force (top panels) and total pressure gradient force (middle panels) and the total of the two forces (bottom panels) in three directions in the equatorial (XY) plane for the...
Article Title: Importance of Ambipolar Electric Field in Driving Ion Loss From Mars: Results From a Multifluid MHD Model With the Electron Pressure Equation Included
Publication Title: Journal of Geophysical Research: Space Physics

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Description Escape Rates for the Four Cases With Three Different Models
Article Title: Importance of Ambipolar Electric Field in Driving Ion Loss From Mars: Results From a Multifluid MHD Model With the Electron Pressure Equation Included
Publication Title: Journal of Geophysical Research: Space Physics

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Description Ion and electron temperature distribution from the three models for case 1, in a format similar to Figure .
Article Title: Importance of Ambipolar Electric Field in Driving Ion Loss From Mars: Results From a Multifluid MHD Model With the Electron Pressure Equation Included
Publication Title: Journal of Geophysical Research: Space Physics

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Description Ion and electron pressure distribution in the XZ plane using (a) multispecies (MS), (b) multifluid (MF), and (c,d) multifluid with electron pressure equation (MFPe) models for case 1. The black...
Article Title: Importance of Ambipolar Electric Field in Driving Ion Loss From Mars: Results From a Multifluid MHD Model With the Electron Pressure Equation Included
Publication Title: Journal of Geophysical Research: Space Physics

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Description Contour plots of mass‐averaged plasma flow speed (left panels) and magnetic field strength (right panels) in the XY plane (a and b) and XZ plane (c and d) for the multifluid magnetohydrodynamic...
Article Title: Importance of Ambipolar Electric Field in Driving Ion Loss From Mars: Results From a Multifluid MHD Model With the Electron Pressure Equation Included
Publication Title: Journal of Geophysical Research: Space Physics

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Description Comparison with Mars atmosphere and volatile EvolutioN for case 4 using multispecies (MS), multifluid (MF), and multifluid magnetohydrodynamic model with electron pressure (MFPe) models. The first...
Article Title: Importance of Ambipolar Electric Field in Driving Ion Loss From Mars: Results From a Multifluid MHD Model With the Electron Pressure Equation Included
Publication Title: Journal of Geophysical Research: Space Physics

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Description Specific Parameters and Conditions Applied to the Cases Performed in the Study
Article Title: Importance of Ambipolar Electric Field in Driving Ion Loss From Mars: Results From a Multifluid MHD Model With the Electron Pressure Equation Included
Publication Title: Journal of Geophysical Research: Space Physics

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