Interhemispheric observations of dayside convection under northward IMF

F. D. Wilder; C. R. Clauer; J. B. H. BakerP. T. Newell

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Interhemispheric observations of dayside convection under northward IMF

机译：两半球间的观测的光面对流在国际货币基金组织(IMF)向北

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The reverse convection potential and electric field under northward interplanetary magnetic field (IMF) has been shown to saturate at a larger value in the summer than in the winter. Previous studies of reverse convection under northward IMF have suggested that in the winter hemisphere, much of the reconnection involves “internal reconnection” with over‐draped field lines from the summer hemisphere. We present a case study in which reverse convection was simultaneously visible in the northern and southern hemispheres near the northern winter solstice. We use SuperDARN radar velocity measurements to demonstrate that the sunward (reverse) convection along the noon meridian is significantly faster in the summer hemisphere. We also use DMSP energetic particle data to demonstrate that in the winter hemisphere, some of the convection circulates on closed field lines, which is a signature of internal reconnection. These results suggest that internal reconnection is much less effective in transmitting the interplanetary electric field (IEF) into the ionosphere.

机译：逆向对流和电动潜力场在向北行星际磁场字段(国际货币基金组织(IMF)已被证明在饱和在夏季比冬季更大的价值。先前的研究下的逆向对流北方国际货币基金组织(IMF)已经表明,在冬天半球,重新连接需要“内部磁力线重连”超过覆盖领域从夏天的半球。案例研究中逆向对流同时在北部和可见的南半球靠近北方的冬天冬至。测量表明,朝着太阳(反向)对流在中午子午线在夏天更快半球。还利用DMSP高能粒子数据证明在冬季半球,一些闭域上的对流循环行,这是一个签名的内部重新连接。重新连接有效的要少得多传输的星际电场(IEF)到电离层。

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《Journal of Geophysical Research, A. Space Physics: JGR》 |2011年第10期|A10230:1-A10230:12|共12页
作者
F. D. Wilder; C. R. Clauer; J. B. H. BakerP. T. Newell;
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作者单位

Bradley Department of Electrical and Computer Engineering, Virginia Polytechnic Institute and State University, Blacksburg, Virginia, USA;

Johns Hopkins University Applied Physics Laboratory, Laurel, Maryland, USA;

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正文语种英语
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field line; winter solstice; Cerebral HemispheresHemisphere;

机译：场线,冬至;脑HemispheresHemisphere;

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Interhemispheric observations of dayside convection under northward IMF

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