Evolution of the magnetic field structure outside the magnetopause under radial IMF conditions

Pi Gilbert; Shue Jih-Hong; Grygorov KostiantynLi Hsien-MingNemecek ZdenekSafrankova JanaYang Ya-HuiWang Kaiti

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Evolution of the magnetic field structure outside the magnetopause under radial IMF conditions

机译：Evolution of the magnetic field structure outside the magnetopause under radial IMF conditions

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abstract_textpWe use the Time History of Events and Macroscale Interactions during Substorms data to investigate the magnetic field structure just outside the magnetopause and its time evolution for radial interplanetary magnetic field (IMF) events. When the magnetic field drapes around the magnetopause in the magnetosheath region, an asymmetric magnetic field orientation in different hemispheres is expected. Our two-case study reveals some conflicts with the predicted draped field configuration in the Southern Hemisphere. The magnetosheath B-z component had a different sign depending on the upstream IMF B-x component's polarity at the beginning of the radial IMF intervals. With time, the observed B-z became northward in both cases with increasing positive values through the events. The increasing value of the B-z component may be explained by two possible mechanisms: by a change of the upstream IMF and by a reconnection between magnetosheath and magnetospheric field lines. Our study shows that both mechanisms contributed to the observed changes. Thus, there was a correlation between the change of the upstream IMF conditions and an increase in the magnetosheath northward magnetic field component. The observed formation of the boundary layer near the magnetopause proves that the reconnection process was ongoing at least for a part of the time. We suggest two possible reconnection scenarios: one near subsolar point and another tailward of the one cusp due to lobe reconnection. The asymmetry of reconnection locations causes rearrangement of the magnetic field structure near the magnetopause and turns the observed magnetosheath B-z component even further into positive values./p/abstract_text

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来源
《Journal of geophysical research》 |2017年第4期|4051-4063|共13页
作者
Pi Gilbert; Shue Jih-Hong; Grygorov KostiantynLi Hsien-MingNemecek ZdenekSafrankova JanaYang Ya-HuiWang Kaiti;
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作者单位

Natl Cent Univ, Inst Space Sci, Taoyuan, Taiwan;

Charles Univ Prague, Fac Math & Phys, Prague, Czech Republic;

Tamkang Univ, Dept Aerosp Engn, New Taipei, Taiwan;

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正文语种英语
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SOLAR-WIND; DAYSIDE MAGNETOPAUSE; MAGNETOSPHERE; EVENTS; PLASMA; MODEL; SIZE;

Evolution of the magnetic field structure outside the magnetopause under radial IMF conditions

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