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Superdarn radar HF propagation and absorption response to the substorm expansion phase

By J. K. Gauld, T. K. Yeoman, J. A. Davies, S. E. Milan and F. Honary
Year: 2002
OAI identifier: oai:eprints.lancs.ac.uk:6610
Provided by: Lancaster E-Prints

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  1. (2001). A case study of HF radar spectra and 630.0nm auroral emission in the premidnight sector, doi
  2. (2000). A comparison of F-region ion velocity observations from the EISCAT Svalbard and VHF radars with irregularity drift velocity measurements from the CUTLASS Finland HF radar, doi
  3. (1989). A new magnetic coordinate system for conjugate studies at high-latitudes, doi
  4. (1975). A versatile three-dimensional ray-tracing computer program for radio waves in the ionosphere, OT Report 75–76, US Govt. Printing Office,
  5. (1995). An imaging riometer for ionospheric studies, doi
  6. (1999). An interhemispheric study of the ground magnetic and ionospheric electric fields during the substorm growth phase and expansion phase onset, doi
  7. (1999). Coherent HF radar backscatter characteristics associated with auroral forms identified by incoherent radar techniques: a comparison of CUTLASS andEISCATobservations, doi
  8. (2000). Combined CUTLASS, EISCAT and ESR observations of ionospheric plasma flows at the onset of an isolated substorm, doi
  9. (1989). Coordinated observations with EISCAT and the Viking satellite: the decay of a westward travelling surge,
  10. (1978). Electron temperatures in the Fregion of the ionosphere: Theory and observations, doi
  11. (1991). Extension of the MSIS thermosphere model into the middle and lower atmosphere, doi
  12. (1998). G.D.: Therelationshipof HF radar backscatter to the accumulation of open magnetic flux prior to substorm onset, doi
  13. (1995). Gauld et al.: HF radar propagation and absorption response to substorms 1645 Darn/Superdarn: A global view of the dynamics of high-latitude convection, doi
  14. (1997). H.: CUTLASS/IMAGE observations of high-latitude convection features during substorms, doi
  15. (1994). H.: The IMAGE magnetometer network,
  16. (1998). Inter-hemispheric contrasts in the ionospheric convection response to changes in the Interplanetary Magnetic Field and substorm activity: A case study, doi
  17. (1969). Ionospheric Radio, doi
  18. (1981). Joint two-dimensional observations of ground magnetic and ionospheric electric fields associated with auroral zone currents 3. Auroral zone currents during the passage of a westward travelling surge, doi
  19. (1966). Joint two-dimensional observations of ground magnetic and ionospheric electric fields associated with auroral zone currents: current systems associated with local auroral break-ups, doi
  20. (1995). Radar observations of auroral zone flows during a multiple-onset substorm, doi
  21. (1998). Simultaneous Ionospheric and Magnetospheric Observations of Azimuthally Propagating Transient Features During Substorms, doi
  22. (1996). Substorm correlated absorption on a 3200km trans-auroral HF propagation path, doi
  23. (1985). The EISCAT ionospheric radar: The system and its early results
  24. (1997). The EISCAT Svalbard radar: a case study in modern incoherent scatter radar system design, doi
  25. (1997). The electric field response to the growth phase and expansion phase onset of a small isolated substorm, doi
  26. (1986). Towards a self-consistent nonlinear theory of radar-auroral backscatter, doi

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