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Plasmaspheric depletion, refilling and plasmapause dynamics: A coordinated ground-based and IMAGE satellite study

By Z.C. Dent, I.R. Mann, J. Goldstein, F.W. Menk and L.G. Ozeke
Year: 2006
DOI identifier: 10.1029/2005JA011046
OAI identifier: oai:eprints.lancs.ac.uk:35376
Provided by: Lancaster E-Prints

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  1. 2J1. (zdent@phys. ualberta.ca; imann@space.ualberta.ca; lozeke@phys.ualberta.ca)
  2. (1977). A comparison of ULF and VLF measurements of magnetospheric cold plasma densities, doi
  3. (2001). A comprehensive survey of plasmasphere refilling at geosynchronous orbit, doi
  4. (1967). A note on oscillating field lines, doi
  5. (1992). A semikinetic model for early stage plasmasphere refilling: 1. Effects of Coulomb collisions, doi
  6. (1992). An ISEE/whistler model of equatorial electron density in the magnetosphere, doi
  7. andL.G.Ozeke (2003),A coordinated ground-based and IMAGE satellite study of quiet-time plasmaspheric density profiles, doi
  8. (2004). Cause of plasmasphere corotation lag, doi
  9. Clilverd,andL.G.Ozeke(2003),Acoordinatedground-basedandIMAGE satellite study of quiet-time plasmaspheric density profiles,
  10. (2001). Diagnosing the plasmapause with a network of closely spaced ground-based magnetometers, doi
  11. (2001). Dynamics of the plasmasphere and plasmapause under the action of geomagnetic storms, doi
  12. (1977). Effects of a magnetic storm on the plasmasphere electron content, doi
  13. (2004). Electron density in the magnetosphere,
  14. (2003). Empirical plasmapause models from magnetic indices, doi
  15. (1997). Erosion and recovery of the plasmasphere in the plasmapause region, doi
  16. (1966). Formation of plasmapause, or magnetospheric plasma knee, by the combined action of magnetospheric convection and plasma escape from the tail, doi
  17. (2004). Frequencies of standing Alfve ´n wave harmonics and their implication for plasma mass distribution along geomagnetic field lines: Statistical analysis of CRRES data, doi
  18. (2004). Frequencies of standing Alfve´n wave harmonics and their implication for plasma mass distribution along geomagnetic field lines: doi
  19. (1981). Geomagnetic pulsation phase patterns over an extended latitudinal arrray, doi
  20. (2000). Global core plasma model, doi
  21. (2005). Heavy ion mass loading of the geomagnetic field near the plasmapause and ULF wave implications, doi
  22. (2005). High and low ionospheric conductivity standing guided Alfve ´n wave eigenfrequencies: A model for plasma density mapping, doi
  23. (2005). High and low ionospheric conductivity standing guided Alfve´n wave eigenfrequencies: A model for plasma density mapping, doi
  24. (2001). Latitudinal density dependence of magnetic field lines inferred from Polar plasma wave data, doi
  25. (1991). Magnetic storm effects on the midlatitude plasmasphere, doi
  26. (1999). Measurements of early and late time plasmasphere refilling as observed from geosynchronous orbit, doi
  27. (1999). Monitoring spatial and temporal variations in the dayside plasmasphere using geomagnetic field line resonances, doi
  28. (2004). Monitoring the plasmapause using geomagnetic field line resonances, doi
  29. (1973). On what ionospheric workers should know about the plasmapause-plasmasphere, doi
  30. (1990). Pi2 pulsation polarization patterns on the U.K. sub-auroral magnetometer network (SAMNET), doi
  31. (2001). Plasma density distribution along the magnetospheric field: RPI observations from IMAGE, doi
  32. (1992). Plasmasphere refilling: Recent observations and modeling, doi
  33. (2004). Plasmaspheric loss and refilling as a result of a magnetic storm, doi
  34. (2000). Plasmaspheric storm time erosion, doi
  35. (1965). Positive ion composition in the magnetoionosphere obtained from the Ogo-A satellite, doi
  36. (1988). Refilling process in the plasmasphere and its relation to magnetic activity, doi
  37. (2003). Reinisch
  38. (1997). Relative concentration of He + in the inner magnetosphere as observed by the DE 1 retarding ion mass spectrometer, doi
  39. (1997). Relative concentration of He+ in the inner magnetosphere as observed by the DE 1 retarding ion mass spectrometer, doi
  40. (1989). Restoration of the meridional structure of geomagnetic pulsation fields from gradient measurements, doi
  41. (2004). Simultaneous remote sensing and in situ observations of plasmaspheric drainage plumes, doi
  42. (1975). Statistical studies of geomagnetic pulsations with periods between 10 and 70 sec and their relationship to the plasmapause region, doi
  43. (1980). Storm associated protonospheric depletion and recovery, doi
  44. (1990). Storm time heavy ion outflow at midlatitude, doi
  45. (1971). The dayside of the plasmasphere, doi
  46. (1998). The Earth’s Plasmasphere, Cambridge Univ. doi
  47. (2000). The extreme ultraviolet imager investigation for the IMAGE mission, doi
  48. (2000). The Radio Plasma Imager investigation on the IMAGE spacecraft, doi
  49. (1991). The resonance structure of low latitude Pc3 geomagnetic pulsations, doi
  50. (1971). The variation of geomagnetic micropulsation periods with latitude and the plasmapause, doi
  51. (1984). Thermal ion composition measurements of the formation of the new outer plasmasphere and double plasmapause during storm recovery phase, doi
  52. (1998). Westward moving dynamic substorm features observed with the IMAGEmagnetometer network and other ground-based instruments, doi
  53. (1998). Westward moving dynamic substorm features observedwith the IMAGEmagnetometer networkandotherground-based instruments,
  54. (1970). Whistler observations of the interchange of ionization between the ionosphere and protonosphere, doi
  55. (1966). Whistler studies of the plasmapause in the magnetosphere: 2. Electron density and total tube content near the knee in magnetospheric ionization, doi

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