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South-north asymmetry of field-aligned currents in the magnetotail observed by Cluster

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journal contribution
posted on 24.10.2012, 09:06 by J. K. Shi, Z. W. Cheng, T. L. Zhang, M. Dunlop, Z. X. Liu, K. Torkar, A. Fazakerley, E. Lucek, H. Reme, I. Dandouras, A. T. Y. Lui, Z. Y. Pu, A. P. Walsh, M. Volwerk, A. D. Lahiff, M. G. G. T. Taylor, A. Grocott, L. M. Kistler, M. Lester, C. Mouikis, C. Shen
[1] We statistically investigated features of the field-aligned current (FAC) distribution in plasma sheet boundary layers between 17 and 19 RE in the magnetotail using the curlometer technique to calculate the current from four-point magnetic field measurements taken in 2001. The results show that the FAC distribution in the plasma sheet boundary layers in the magnetotail has dusk-dawn asymmetry, earthward-tailward (polarity) asymmetry, and north-south asymmetry. The occurrence and polarities of FACs in the Northern Hemisphere are different from those in the Southern Hemisphere. The average density and the standard deviation of the FACs that are most likely to be connected to the Earth are 4.90 nA m−2 and 2.55 nA m−2 in the Northern Hemisphere and 4.21 nA m−2 and 1.80 nA m−2 in the Southern Hemisphere, respectively. For investigating the mechanism of the north-south asymmetry, we mapped the FACs along the field line into the polar region. The footprints of the FACs also show a difference between the Southern and Northern hemispheres (as a function of mapped latitude). These characteristics suggest a north-south asymmetry of the FACs in the magnetosphere. Further investigation is needed to identify the causes of this asymmetry, although the configuration of the magnetosphere, the polar cap boundary, the conductivity in the ionosphere, or the various solar wind-magnetosphere interaction processes all may be contributors. That the FAC densities are different between the hemispheres suggests that an important source of these currents must be a voltage generator.



Journal of Geophysical Research-SPACE PHYSICS, 2010, 115


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Journal of Geophysical Research-SPACE PHYSICS


American Geophysical Union (AGU); Wiley



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