NASA Technical Reports Server (NTRS) : Properties pdf

NASA Technical Reports Server (NTRS) : Properties

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The objective is to better characterize the macroscopic properties of the interhemisphere plasma flow by solving a more complete set of hydrodynamic equations than that solved previously. Specifically, the ion continuity, momentum and energy equations were solved for the plasma flow along the closed magnetic field lines. During the initial stage of the supersonic outflow in the equatorial region, the ions cool substantially. Using the hydrodynamic model for the large-scale plasma flow, the dynamics of shocks was examined which form in the geomagnetic flux tubes during the early stages of refilling. These shocks are more like those forming in neutral gases than the electrostatic shocks driven by microinstabilities involving ion-ion interaction. Therefore, the shocks seen in the hydrodynamic model are termed as hydrodynamic shocks. Such shocks are generally unsteady and therefore the usual shock jump conditions given by Rankine-Hugoniot relations are not strictly applicable to them. The density, flow velocity and temperature structures associated with the shocks are examined for both asymmetrical and symmetrical flows.

In the asymmetrical flow the outflow from one of two conjugate ionospheres is dominant. On the other hand, in the symmetrical case outflows from the two ionospheric sources are identical. Both cases are treated by a two-stream model. In the late type of flow, the early-time refilling shows a relaxation type of oscillation, which is driven by the large-scale interactions between the two identical streams. After this early stage, the resulting temperature structure shows some interesting features. In the equatorial region the streams are isothermal, but in the off-equatorial regions the streams have quite different temperatures, and also densities and flow velocities. The dense and slow stream is found to be warmer than the low-density fast stream. In the late stage of refilling, the temperature is found to steadily increase from the conjugate ionospheres towards the equator; the equatorial temperature is found to be as high as about 8000 K compared to the ionospheric temperature of 3600 K

• Creator/s: NASA Technical Reports Server (NTRS
• Date: 1/1/1990
• Year: 1990
• Book Topics/Themes: NASA Technical Reports Server (NTRS), HYDRODYNAMIC EQUATIONS, HYDRODYNAMICS, MAGNETIC FIELDS, MAGNETIC FLUX, MAGNETOHYDRODYNAMIC FLOW, PLASMA FLUX MEASUREMENT, PLASMASPHERE, CONTINUITY EQUATION, EQUATORIAL REGIONS, FLOW VELOCITY, GEOMAGNETISM, ION TEMPERATURE, MAGNETIC STORMS, PLASMAS (PHYSICS), RANKINE-HUGONIOT RELATION, Singh, Nagendra, Craven, P., Torr, D. G., Richards, P. G

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