Abstract
Abstract. We use a global numerical model of the interaction of the solar wind and the interplanetary magnetic field with Earth's magnetosphere to study the formation process of Flux Transfer Events (FTEs) during strong southward IMF. We find that: (i) The model produces essentially all observational features expected for FTEs, in particular the bipolar signature of the magnetic field BN component, the correct polarity, duration, and intermittency of that bipolar signature, strong core fields and enhanced core pressure, and flow enhancements; (ii) FTEs only develop for large dipole tilt whereas in the case of no dipole tilt steady magnetic reconnection occurs at the dayside magnetopause; (iii) the basic process by which FTEs are produced is the sequential generation of new X-lines which makes dayside reconnection inherently time dependent and leads to a modified form of dual or multiple X-line reconnection; (iv) the FTE generation process in this model is not dependent on specific assumptions about microscopic processes; (v) the average period of FTEs can be explained by simple geometric arguments involving magnetosheath convection; (vi) FTEs do not develop in the model if the numerical resolution is too coarse leading to too much numerical diffusion; and (vii) FTEs for nearly southward IMF and large dipole tilt, i.e., near solstice, should only develop in the winter hemisphere, which provides a testable prediction of seasonal modulation. The semiannual modulation of intermittent FTE reconnection versus steady reconnection is also expected to modulate magnetospheric and ionospheric convection and may thus contribute to the semiannual variation of geomagnetic activity.
Highlights
Magnetic reconnection is the fundamental mode of mass, momentum, and energy transfer from the solar wind and interplanetary magnetic field (IMF) into the magnetosphere-ionosphere-atmosphere system
We show that Flux Transfer Events” (FTEs) can be generated when a X-line at the magnetopause does not coincide with the bifurcation of the magnetosheath flow, for example due to dipole tilt
We find that the successful simulation of FTEs depends on the numerical resolution of the model, but that with sufficiently well resolved simulations it is possible to investigate the formation of FTEs
Summary
Magnetic reconnection is the fundamental mode of mass, momentum, and energy transfer from the solar wind and interplanetary magnetic field (IMF) into the magnetosphere-. Because of the symmetry one can generalize this statement somewhat to include the northern winter (southern summer) season, assuming that the flux-ropes seen in Fig. 4 are FTEs: If the IMF is strongly southward (Bz By,x) and near solstice, FTEs should only occur in the winter hemisphere, while the reconnection flows at the magnetopause in the summer hemisphere are steady. This prediction is statistically testable if enough observations are available that fulfill these criteria and if orbital bias is taken into account.
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