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Interhemispheric comparison of spectral width boundary as observed by the SuperDARN radars

By K. Hosokawa, E.E. Woodfield, M. Lester, S.E. Milan, N. Sato, A.S. Yukimatu and T. Iyemori
Topics: Q Science (General)
Year: 2003
DOI identifier: 10.5194/angeo-21-1553-2003
OAI identifier: oai:eprints.lancs.ac.uk:35434
Provided by: Lancaster E-Prints

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  1. (1989). A new magnetic coordinate system for conjugate studies of high latitudes, doi
  2. (1989). A.: A magnetospheric magnetic field model with a warped tail current sheet, doi
  3. (2002). A.: A statistical study of the location and motion of the HF radar cusp, doi
  4. (2001). An evaluation of range accuracy in the Super Dual Auroral Radar Network over-the-horizon HF radar systems, doi
  5. (1990). Auroral activity associated with unsteady magnetospheric erosion: doi
  6. (1984). Auroral boundary variations and the interplanetary magnetic field, doi
  7. (1990). Auroralactivityassociatedwithunsteadymagnetospheric erosion: doi
  8. (1989). C.I.: Dipoletiltangleeffectsonthelatitude of the cusp and cleft/low-latitude boundary layer, doi
  9. (1999). C.J.: Meridian-scanningphotometer, coherentHF radar, and magnetometer observation of the cusp : a case study, doi
  10. (1997). Conjugate auroras and the interplanetary magnetic field, doi
  11. (1999). Conjugate observations of the day-side reconnection electric field: A GEM boundary layer campaign, doi
  12. (1995). DARN/SuperDARN: A global view of high-latitude convection, doi
  13. (1984). Dawn-dusk (y) component of the interplanetary magnetic field and the local time of the Harang discontinuity, doi
  14. (1984). Dawn-dusk(y)componentoftheinterplanetary magnetic field and the local time of the Harang discontinuity, doi
  15. (1991). Dependence of convective flows and particle precipitation in the high-latitude ionosphere on the X and Y components of the interplanetary magnetic field, doi
  16. (1989). Dipole tilt angle effects on the latitude of the cusp and cleft/low-latitude boundary layer, doi
  17. (1967). Dynamics of auroral belt and polargeomagneticdisturbance, doi
  18. (1993). Electric field fluctuations and charged particle precipitation in the cusp, doi
  19. (1972). Electron polar cap and the boundary of open geomagnetic field lines, doi
  20. (1992). Excitation and decay of solar wind driven flows in the magnetosphere-ionosphere system, doi
  21. (1997). Ground observations and possible source regions of two types of Pc1-2 micropulsation at very high latitudes, doi
  22. (2000). Ground-based imaging of magnetospheric boundaries, doi
  23. (1997). HF radar observations of the dayside magnetic merging rate: A Geospace Environment Modeling boundary layer campaign study, doi
  24. (1992). Identification of the magnetospheric cusp and cleft using Pc1-2 ULF pulsations, doi
  25. (1985). IMF By -dependent plasma flow and Birkeland currents in the dayside magnetosphere 2. A global model for northward and southward IMF, doi
  26. (1985). IMF By-dependent plasma flow and Birkeland currents in the dayside magnetosphere 2. A global model for northward and southward IMF, doi
  27. (1997). Initial Backscatter occurrence statistics from the CUTLASS HF radars, doi
  28. Intense, variable electric fields at ionospheric altitudes in the high latitude regions as observed by DE-2, doi
  29. (1998). Inter-hemispheric contrasts in the ionospheric convection response to changes in the interplanetary magnetic field and substorm activity: a case study, doi
  30. (2002). Interhemispheric comparison of spectral width boundary 1565 doi
  31. (2001). Interhemispheric differences in the HF radar signature of the cusp region: A review through the study of a case example, Adv. Polar Upper Atmos.
  32. (2000). Interhemispheric observation of nightside ionospheric electric fields in response to IMF Bz and By changes and substorm pseudobreakup, doi
  33. (1991). Ion acceleration at the equatorward edge of the cusp: low-altitude observations of patchy merging, doi
  34. (1996). L.A.: Theasymmetricsubstormexpansion phase (abstract),
  35. (1981). Magnetospheric asymmetries associated with the doi
  36. (1981). Magnetospheric asymmetries associated with the Y -component of the IMF, doi
  37. (1997). Mapping the outer LLBL with SuperDARN double-peaked spectra, doi
  38. (1999). Meridian-scanning photometer, coherent HF radar, and magnetometer observation of the cusp : a case study, doi
  39. (2002). Observation of two complete substorm cycles during the Cassini Earth swing-by: Cassini magnetometer data in a global context, doi
  40. (1999). Observations of the response time of high-latitude ionospheric convection to variations in the interplanetary magnetic field using EISCAT and IMP-8 data, doi
  41. (2001). On the collocation between dayside auroral activity and coherent HF radar backscatter, doi
  42. On the factors conditioning the Doppler spectral width determined from SuperDARN HF radars, doi
  43. (1999). On the SuperDARN autocorrelation function observed in the ionospheric cusp, doi
  44. (1985). Polar cap inflation and deflation, doi
  45. (1984). Precipitating electron and ion detectors (SSJ/4) for the block 5D/Flights 6-10 DMSP satellites: calibration and data presentation,
  46. (1998). Separation of multiple echoes using a high resolution spectral analysis doi
  47. (1990). Simultaneous HF radar and DMSP observation of the cusp, doi
  48. (1997). Simultaneous observation of the cusp in optical, doi
  49. Simultaneous optical and HF radar observations of the ionospheric cusp, doi
  50. (2000). Small-scale vortices in the high-latitude F-region, doi
  51. (1977). Solar wind plasma injection at the dayside magnetospheric cusp, doi
  52. (1992). Substorm intensifications and field line resonances in the nightside magnetosphere, doi
  53. (1988). The cusp and the cleft/boundary layer: Low-altitude identification and statistical local time variation, doi
  54. (1998). The dayside auroral zone as a hard target for coherent HF radars, doi
  55. (2000). The ionospheric footprint of antiparallel merging regions on the dayside magnetopause, doi
  56. (1997). The ionospheric response to flux transfer events: the first few minutes, doi
  57. (1997). The ionospheric response to flux transferevents: thefirstfewminutes,
  58. (2001). The response of the HF radar spectral width boundary to a switch in the IMF By directions: Ionospheric consequence of transient dayside reconnection?, doi
  59. (2002). Variations in polar cap area during two substorm cycles, submitted to Ann. Geophysicae, doi

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