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Nightside studies of coherent HF radar spectral width behaviour

By E.E. Woodfield, J.A. Davies, M. Lester, T.K. Yeoman, P. Eglitis and M. Lockwood
Year: 2002
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Provided by: Lancaster E-Prints

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  4. (1989). A new magnetic coordinate system for conjugate studies at high latitudes, doi
  5. (1991). Auroral Plasma Waves, in: Auroral Physics, doi
  6. (2000). Combined CUTLASS, EISCAT and ESR observations of ionospheric plasma flows at the onset of an isolated substorm, doi
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  15. (1995). High spatial and temporal resolution observations of the ionospheric cusp, doi
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  18. (1968). Ion and electron heating by auroral electric fields,
  19. (1988). Ion flows and heating at a contracting polar-cap boundary, doi
  20. Ion frictional heating at highlatitudes and its possible use for in situ determination of neutral thermospheric winds and temperatures, doi
  21. (1992). Ionospheric Convection and the substorm cycle, in: doi
  22. Ionospheric Convection and thesubstormcycle, in:
  23. (1997). L.: IMAGE magnetometer network, in: Satellite-Ground Based Coordination Sourcebook,
  24. (1998). Large-scale imaging of highlatitude convection with Super Dual Auroral Radar Network HF radar observations, doi
  25. (1991). Magnetospheric boundary dynamics: DE-1 and DE-2 observations near the magnetopause and cusp, doi
  26. (1992). Mapping the dayside ionopshere to the magnetosphere according to particle precipitation characteristics, doi
  27. (1997). Mapping the outer LLBL with SuperDARN double-peaked spectra, doi
  28. (1999). Meridian-scanning photometer, coherent HF radar, and magnetometer observations of the cusp: a case study, doi
  29. (1997). Nightside studies of coherent HF Radar spectral width behaviour 1413 doi
  30. (2001). On determining the noon polar cap boundary from SuperDARN HF radar backscatter characteristics, doi
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  32. On the factors conditioning the Doppler spectral width determined from SuperDARN HF radars, doi
  33. (1999). On the SuperDARN autocorrelation function observed in the ionospheric cusp, doi
  34. (1985). P.J.S.: TheEISCATIonosphericRadar: theSystemanditsEarlyResults,
  35. (2000). Plasma structure within polewardmoving cusp/cleft auroral transients: EISCAT Svalbard radar observations and an explanation in terms of large local time extent of events, doi
  36. (2000). S: Ground-based imaging of Magnetospheric boundaries, doi
  37. (1994). Satelliteground coordination: late growth and Early expansion phase of a substorm, in:
  38. (1990). Simultaneous HF-radar and DMSP observations of the cusp, doi
  39. (1997). Simultaneous observations of the cusp in optical, doi
  40. (1995). Simultaneous optical and HF radar observations of the ionsopheric cusp, doi
  41. (2000). Simultaneous optical and radar signatures of poleward-moving auroral forms, doi
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  43. (1999). Solar and seasonal dependence of ion friction heating, doi
  44. (2002). SuperDARN radar HF propagation and absorption response to the substorm expansion phase, Ann. Geophysicae, in press, doi
  45. (1995). SWE, A comprehensive plasma instrument for the WIND spacecraft, doi
  46. (1985). The EISCAT Ionospheric Radar: the System and its Early Results,
  47. (1997). The EISCAT Svalbard Radar: A case study in modern incoherent scatter radar system design, doi
  48. (1998). The nightside ionospheric response to IMF By changes, doi
  49. (1995). The WIND magnetic field investigation, doi
  50. (1984). Very high teperatures in the daytime F region at Sondestrom, doi

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