Antisunward structure of thin current sheets in the Earth's magnetotail: Implications of quasi-adiabatic theory

Malova H. V.; Popov V. Yu.; Delcourt D. C.Petrukovich A. A.Zelenyi L. M.

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Antisunward structure of thin current sheets in the Earth's magnetotail: Implications of quasi-adiabatic theory

机译：Antisunward structure of thin current sheets in the Earth's magnetotail: Implications of quasi-adiabatic theory

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abstract_textpWe developed a self-consistent kinetic model of thin current sheets (TCS), taking into account the inhomogeneity of TCS parameters in the antisunward direction. We show that the charged particle dynamics depending on the magnetic field distribution in the downtail direction completely determines the magnetotail equilibrium structure. We demonstrate that transient ions as well as electrons are the main current carriers in this system, but the first ones support mostly the background (1-D) structure of the current sheet. The influence of electrons and quasi-trapped ions is found to vary depending upon downtail distance along the sheet. Assuming the conservation of the so-called quasi-adiabatic invariant, we show that quasi-trapped particles are distributed along the current sheet in such a way that they concentrate in the region with large values of normal magnetic field component. As a result quasi-trapped ions can dominate near the earthward edge of TCS. In contrast, the electron current becomes stronger in the TCS tailward region where the normal magnetic field component becomes weaker, and field line curvature drifts are enhanced. Our quasi-adiabatic model predicts that thin current sheets in the Earth's magnetotail should have weakly 2-D configuration which, similar to its 1-D analog considered earlier, conserves the multiscale matreshka structure with multiple embedded layers./p/abstract_text

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《Journal of geophysical research》 |2013年第7期|4308-4318|共11页
作者
Malova H. V.; Popov V. Yu.; Delcourt D. C.Petrukovich A. A.Zelenyi L. M.;
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作者单位

Moscow MV Lomonosov State Univ, Skobeltsyn Inst Nucl Phys, Moscow 119991, Russia;

Russian Acad Sci, Space Res Inst, Moscow, Russia;

Moscow MV Lomonosov State Univ, Dept Phys, Moscow 119991, RussiaFinance Univ, Moscow, RussiaCNRS, Ecole Polytech, Lab Phys Plasmas, St Maur Des Fosses, France;

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正文语种英语
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magnetotail thin current sheet; kinetic theory; particle dynamics; numerical modeling; DIMENSIONAL CURRENT SHEET; PLASMA SHEET; EQUILIBRIUM STRUCTURE; PARTICLE MOTION; MODEL; TAIL; CONFIGURATIONS; INSTABILITIES; ANISOTROPY; STABILITY;

Antisunward structure of thin current sheets in the Earth's magnetotail: Implications of quasi-adiabatic theory

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