Electric Fields and Magnetic Fields in the Plasmasphere: A Perspective From CLUSTER and IMAGE

被引:0
作者
Hiroshi Matsui
John C. Foster
Donald L. Carpenter
Iannis Dandouras
Fabien Darrouzet
Johan De Keyser
Dennis L. Gallagher
Jerry Goldstein
Pamela A. Puhl-Quinn
Claire Vallat
机构
[1] University of New Hampshire (UNH),Space Science Center, Morse Hall
[2] Massachusetts Institute of Technology (MIT),undefined
[3] Space Telecommunications and Radioscience Laboratory (STAR),undefined
[4] Centre d’Etude Spatiale des Rayonnements (CESR),undefined
[5] Belgian Institute for Space Aeronomy (BIRA-IASB),undefined
[6] NASA Marshall Space Flight Center (MSFC),undefined
[7] Southwest Research Institute (SWRI),undefined
[8] European Space Agency (ESA),undefined
来源
Space Science Reviews | 2009年 / 145卷
关键词
Plasmasphere; Electric Field; Magnetic Field; CLUSTER; IMAGE;
D O I
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中图分类号
学科分类号
摘要
The electric field and magnetic field are basic quantities in the plasmasphere measured since the 1960s. In this review, we first recall conventional wisdom and remaining problems from ground-based whistler measurements. Then we show scientific results from Cluster and Image, which are specifically made possible by newly introduced features on these spacecraft, as follows. 1. In situ electric field measurements using artificial electron beams are successfully used to identify electric fields originating from various sources. 2. Global electric fields are derived from sequences of plasmaspheric images, revealing how the inner magnetospheric electric field responds to the southward interplanetary magnetic fields and storms/substorms. 3. Understanding of sub-auroral polarization stream (SAPS) or sub-auroral ion drifts (SAID) are advanced through analysis of a combination of magnetospheric and ionospheric measurements from Cluster, Image, and DMSP. 4. Data from multiple spacecraft have been used to estimate magnetic gradients for the first time.
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页码:107 / 135
页数:28
相关论文
共 521 条
[1]  
Anderson P.C.(1993)A proposed production model of rapid subauroral ion drifts and their relationship to substorm evolution J. Geophys. Res. 98 6069-6078
[2]  
Hanson W.B.(2001)Multisatellite observations of rapid subauroral ion drifts (SAID) J. Geophys. Res. 106 29585-29599
[3]  
Heelis R.A.(1994)A case study of storm commencement and recovery plasmaspheric electric fields near Ann. Geophys. 12 625-635
[4]  
Craven J.D.(2001)=2.5 at equinox Ann. Geophys. 19 1207-1217
[5]  
Baker D.N.(1985)The Cluster magnetic field investigation: overview of in-flight performance and initial results J. Geophys. Res. 90 6370-6378
[6]  
Frank L.A.(1985)Magnetospheric convection observed between 0600 and 2100 LT: Solar wind and IMF dependence J. Geophys. Res. 90 393-398
[7]  
Anderson P.C.(1986)Magnetospheric convection observed between 0600 and 2100 LT: Variations with J. Geophys. Res. 91 4557-4560
[8]  
Carpenter D.L.(1974)Dayside equatorial-plane convection and IMF sector structure J. Geophys. Res. 79 2783-2789
[9]  
Tsuruda K.(1967)Derivation of magnetospheric electric fields from whistler data in a dynamic geomagnetic field J. Geophys. Res. 72 5193-5211
[10]  
Mukai T.(2000)Bulk motion of the magnetosphere Space Sci. Rev. 91 1-14
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