机构地区:[1]College of Math and Statistics,Nanjing University of Information Science and Technology [2]State Key Laboratory of Space Weather,Center for Space Science and Applied Research,Chinese Academy of Sciences [3]State Key Laboratory of Space Weather,Center for Space Science and Applied Research [4]College of Electronic Engineering,Guangxi Normal University
出 处:《Chinese Science Bulletin》2013年第33期4126-4132,共7页
基 金:supported by the National Basic Research Program of China (2012CB825602);the National Natural Science Foundation of China (41231067 and 41204118);in part by the Specialized Research Fund for State Key Laboratories of China
摘 要:The plasma transport between the plasmasphere and the ionosphere in response to the interplanetary conditions is still not fully understood until now.Simultaneous observations of the plasmasphere and ionosphere from the newly developed Chinese Meridian Project provide a new opportunity for understanding the characteristic of the plasma transport and the coupling mechanism between these two regions.We investigate the response of the plasmasphere(L≈2)and ionosphere to the solar wind dynamic pressure pulse during geomagnetically quiet period of 21–27 March 2011.The response of the plasmasphere shows a significant depletion.The plasmaspheric density nearly decreases by half in response to the solar wind dynamic pressure pulse,and subsequently recovers to the original level in 1–2 d.Meanwhile,the maximum electron density of the ionospheric F2 layer(NmF2)and the total electron content(TEC)increase by 13%and 21%,respectively,and then gradually recover,which is opposite to the behavior during magnetic storms.Preliminary analysis shows that the plasmaspheric depletion may be mainly caused by the southward interplanetary magnetic field and changing dawn-dusk electric field.The plasmaspheric density variations seem to be controlled by both the IMF and ionospheric conditions.The plasma transport between the plasmasphere and the ionosphere in response to the interplanetary conditions is still not fully understood until now. Simultaneous observations of the plasmasphere and ionosphere from the newly developed Chinese Meridi- an Project provide a new opportunity for understanding the characteristic of the plasma transport and the coupling mechanism between these two regions. We investigate the response of the plasmasphere (L ~ 2) and ionosphere to the solar wind dynamic pressure pulse during geomagnetically quiet period of 21-27 March 2011. The response of the plasmasphere shows a significant depletion. The plasmaspheric density nearly decreases by half in response to the solar wind dynamic pressure pulse, and subse- quently recovers to the original level in 1-2 d. Meanwhile, the maximum electron density of the ionospheric F2 layer (NmF2) and the total electron content (TEC) increase by 13% and 21%, respectively, and then gradually recover, which is opposite to the be- havior during magnetic storms. Preliminary analysis shows that the plasmaspheric depletion may be mainly caused by the south- ward interplanetary magnetic field and changing dawn-dusk electric field. The plasmaspheric density variations seem to be con- trolled by both the IMF and ionospheric conditions.
关 键 词:等离子体层 等离子体输运 电离层 太阳风 脉冲 动压 国际货币基金组织 行星际磁场
分 类 号:P353[天文地球—空间物理学]
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