30 citations as recorded by crossref.

1. Ionospheric ions in the near‐Earth magnetotail S. Chen & T. Moore
2. CIR versus CME drivers of the ring current during intense magnetic storms M. Liemohn et al.
3. An improved empirical model of electron and ion fluxes at geosynchronous orbit based on upstream solar wind conditions M. Denton et al.
4. Reanalysis of plasma measurements at geosynchronous orbit T. O'Brien & C. Lemon
5. The superdense plasma sheet in the magnetosphere during high-speed-stream-driven storms: Plasma transport timescales M. Denton & J. Borovsky
6. Magnetosphere preconditioning under northward IMF: Evidence from the study of coronal mass ejection and corotating interaction region geoeffectiveness B. Lavraud et al.
7. Modeling the effects of cold‐dense and hot‐tenuous plasma sheet on proton ring current energy and peak location B. Lavraud & V. Jordanova
8. Sharp Changes of Solar Wind Ion Flux and Density Within and Outside Current Sheets O. Khabarova & G. Zastenker
9. Cold and Dense Plasma Sheet Caused by Solar Wind Entry: Direct Evidence Y. Yu et al.
10. Testing the necessity of transient spikes in the storm time ring current drivers M. Liemohn et al.
11. Superposed epoch analysis of a whistler instability criterion at geosynchronous orbit during geomagnetic storms E. MacDonald et al.
12. Cold dense magnetopause boundary layer under northward IMF: Results from THEMIS and MHD simulations W. Li et al.
13. Earth's collision with a solar filament on 21 January 2005: Overview J. Kozyra et al.
14. Excitation of Internally Driven ULF Waves by the Drift‐Bounce Resonance With Ring Current Ions Based on the Drift‐Kinetic Simulation T. Yamakawa et al.
15. Ring current simulations of the 90 intense storms during solar cycle 23 M. Liemohn & M. Jazowski
16. Typical Profiles and Distributions of Plasma and Magnetic Field Parameters in Magnetic Clouds at 1 AU L. Rodriguez et al.
17. On the origin of low‐energy electrons in the inner magnetosphere: Fluxes and pitch‐angle distributions M. Denton et al.
18. Geomagnetic storms driven by ICME‐ and CIR‐dominated solar wind M. Denton et al.
19. Plasma properties of superstorms at geosynchronous orbit: How different are they? M. Liemohn et al.
20. Relativistic‐electron dropouts and recovery: A superposed epoch study of the magnetosphere and the solar wind J. Borovsky & M. Denton
21. Differences between CME‐driven storms and CIR‐driven storms J. Borovsky & M. Denton
22. Local Time Differences in the Ionospheric Electromagnetic Ion Cyclotron Waves during Storm Timeormalsize L. SUN et al.
23. Transport of plasma sheet material to the inner magnetosphere M. Denton et al.
24. Superposed epoch analysis of high‐speed‐stream effects at geosynchronous orbit: Hot plasma, cold plasma, and the solar wind M. Denton & J. Borovsky
25. Inner magnetosphere plasma characteristics in response to interplanetary shock impacts C. Yue et al.
26. Storm time equatorial magnetospheric ion temperature derived from TWINS ENA flux R. Katus et al.
27. High-speed stream driven inferences of global wave distributions at geosynchronous orbit: relevance to radiation-belt dynamics E. MacDonald et al.
28. The formation of superdense plasma sheet in association with the IMF turning from northward to southward W. Li et al.
29. Solar‐wind influence on MLT dependence of plasma sheet conditions and their effects on storm time ring current formation M. Chen et al.
30. Extension of an Empirical Electron Flux Model From 6 to 20 Earth Radii Using Cluster/RAPID Observations M. Denton et al.