Skip to main content
Article thumbnail
Location of Repository

Magnetospheric convection electric field dynamics and stormtime particle energization: Case study of the magnetic storm of 4 May 1998

By G.V. Khazanov, M.W. Liemohn, T.S. Newman, M.C. Fok and A.J. Ridley
Year: 2004
OAI identifier:
Provided by: Lancaster E-Prints

Suggested articles


  1. (1996). A flexible, IMF dependent model of high-latitude electric potentials having “space weather” applications, doi
  2. (1986). A Kp dependent equatorial electric field model, doi
  3. (2002). A model-derived description of the penetration electric field, doi
  4. (1999). A prolonged He+ enhancement within a coronal mass ejection in the solar wind, doi
  5. (1986). A self-consistent model of the interacting ring current ions and electromagnetic ion cyclotron waves, initial results: Waves and precipitating fluxes, doi
  6. (1997). A semiempirical equatorial mapping of AMIE convection electric potentials (MACEP) for the 10 doi
  7. (1973). A semiempirical model of large-scale magnetospheric electric fields, doi
  8. (1990). A simulation of the storm-time ring current, doi
  9. (1999). Acceleration of relativistic electrons via drift-resonant interaction with toroidal-mode doi
  10. (1999). Analysis of early phase ring current recovery mechanisms during geomagnetic storms, doi
  11. (1967). Bulk motion of the magnetosphere, doi
  12. (1963). C.-G.: Cosmical Electrodynamics,
  13. (1996). Collisional losses of ring current ions, doi
  14. (2002). Consequences of a saturated convection electric field on the ring current,
  15. (1999). Correction to “Formation of powerlaw energy spectra in space plasmas by stochastic acceleration due to whistler-mode waves”, doi
  16. (1963). Cosmical Electrodynamics,
  17. (1998). Effects of inner magnetospheric convection on ring current dynamics: doi
  18. (2002). Effects of magnetic clouds on the occurrence of geomagnetic storms: The first 4 years of Wind, doi
  19. (1991). Electrodynamics of the inner magnetosphere observed in the dusk sector by CRRES and DMSP during the magnetic storm of 4–6 doi
  20. (1966). Formation of a plasmapause, or magnetospheric plasma knee by combined action of magnetospheric convection and plasma escape from the tail, doi
  21. (1986). Geocoronal imaging with Dynamics Explorer, doi
  22. (1996). Geophysical doi
  23. (1998). Global superthermal electron transport: Photoelectron and plasma sheet electron sources, doi
  24. (1993). Ion transport and loss in the Earth’s quiet ring current. 1. Data and standard model, doi
  25. (1986). Ionospheric convection associated with discrete levels of particle precipitation, doi
  26. (1975). Isolated cold plasma regions: Observations and their relation to possible production mechanisms, doi
  27. (1986). Khazanov et al.: Magnetospheric convection electric field dynamics
  28. (1991). Lifetime of ring current particles due to Coulomb collisions in the plasmasphere, doi
  29. (1995). magnetic cloud and accompanying storm activity: ring current evolution, doi
  30. (1988). Mapping electrodynamic features of the high-latitude ionosphere from localized observations: doi
  31. (1988). Mapping electrodynamic featuresofthehigh-latitudeionospherefromlocalizedobservations:
  32. (1980). Meaning, and Use of Geomagnetic Indices, doi
  33. (1997). Modeling of ring current formation and decay: A review, in: doi
  34. (1997). Modeling of solar wind control of the ring current buildup: A case study of the magnetic storms in doi
  35. (1996). Modeling the global magnetic field of the large-scale Birkeland current systems, doi
  36. (2001). Multisatellite observations of rapid subauroral ion drifts doi
  37. (1997). Numerical modeling of the ring current and plasmasphere, doi
  38. (2002). Outstanding issues of ring current dynamics, doi
  39. (1972). Pitch-angle diffusion of radiation belt electrons with the plasmasphere, doi
  40. (1984). Quantitative Aspects of Magnetospheric Physics, doi
  41. (2003). Quasisteady drift paths in a model magnetosphere with AMIE electric field: Implications for ring current formation, doi
  42. (2000). Rapid acceleration of electrons in the magnetosphere by fast-mode MHD waves, doi
  43. (1999). Relativistic electron beam propagation in the Earth’s magnetosphere, doi
  44. (1986). Ring current development during the great geomagnetic storm of February doi
  45. (2000). Simulation study on fundamental properties of the storm-time ring current, doi
  46. (1991). Storm time electric field penetration observed at mid-latitude, doi
  47. (1993). Stormtime transport of ring current and radiation belt ions, doi
  48. (1974). Substorm injection boundaries, in: doi
  49. (1998). The driving of the plasma sheet by the solar wind, doi
  50. (1975). The motion of a proton in the equatorial magnetosphere, doi
  51. (1993). The solar flare myth, doi
  52. (1978). Trajectory traces of charged particles in the magnetosphere, doi
  53. (1991). Two-step Dst development and ring current composition changes during the 4–6
  54. (1991). Two-stepDst developmentandringcurrentcompositionchanges during the 4–6
  55. (1993). Twodimensional model of the plasmasphere: refilling time constants, doi
  56. (1998). Unusual composition of the solar wind in the 2–3 doi
  57. (1998). Wind and ACE observations during the great flow of 1-4

To submit an update or takedown request for this paper, please submit an Update/Correction/Removal Request.