Numerical study on the Earth's magnetotail formation and magnetospheric substorm
Thesis/Dissertation
·
OSTI ID:5197569
The formation of the magnetotail configuration under the influence of the solar wind plasma flow entering the magnetosphere and the associated magnetospheric substorm in the magnetotail region are studied numerically by means of time dependent nonlinear resistive MHD codes. By using the two dimensional model, the formation of the magnetotail starting from a dipole magnetic field is studied. It is observed that a two dimensional tail-like structure develops in association with the plasma flow originating from the solar wind. In the presence of a current driven resistivity, the x-type reconnection is triggered at the point where the current density is peaked. The plasma sheet width does not change much after reconnection in contrast to the pre-reconnection phase in which the plasma sheet becomes thinner and thinner. Formation of the plasmoid and is tailward motion are also observed. The temporal behavior of the system is very sensitive to the solar wind energy flux that may originate from the dayside reconnection. When the solar wind energy flux is larger, the development of magnetic reconnection is found to be faster, and the resulting plasma motions are more violent. The x-point is found to be formed closer to the earth in that case. The substorm recovery phase is studied by reducing the entering solar wind energy flux when magnetic reconnection is fully developed. The system is found to respond instantly to this change.
- Research Organization:
- Princeton Univ., NJ (USA)
- OSTI ID:
- 5197569
- Country of Publication:
- United States
- Language:
- English
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