- Magnetic Field Instruments for the Fast Auroral Snapshot Explorer R. C. Elphic,
- FAST observations of electron distributions within AKR source G.T. Delory, R.E. Ergun, C.W. Carlson, L. Muschetti, C.C. Chaston, W. Peria, and J.P.
- The Polarization, Frequency Structure, and Bandwidth of Auroral Kilometric Radiation
- STRANGEWAY ET AL.: CUSP FIELD-ALIGNED CURRENTS 5 rates. This is evident, for example, around 0010 UT on orbit 8276
- FAST observations of VLF waves in the auroral zone: Evidence of very low plasma densities
- FAST Spacecraft Reveals Fundamental Plasma Wave Emission NASA's Fast Auroral Snapshot (FAST) Small Explorer has traveled to the source
- Accelerated Electrons as the Source of Auroral Kilometric Radiation R. J. Strangeway
- Factors Controlling Ionospheric Outflows as Observed at Intermediate Altitudes R. J. Strangeway,
- On the transition from collisionless to collisional magnetohydrodynamics
- Institute of Geophysics and Planetary Physics, University of California, Los Angeles.
- WHISTLER-MODE PROPAGATION IN THE COLLISIONAL IONOSPHERE OF VENUS
- Institute of Geophysics and Planetary Physics, University of California, Los Angeles.
- STRANGEWAY ET AL.: CUSP FIELD-ALIGNED CURRENTS 4 Plate 2. Overview plots of FAST data for the September 24-25 ion outflow event. Two orbits before the sudden
- Magnetic Field Instruments for the Fast Auroral Snapshot Explorer R. C. Elphic,
- June 18, 2002 Robert J. Strangeway CEDAR 1 Auroral Acceleration Processes and
- FAST Observations of Wave Packets
- Magnetic Field Instruments for the Fast Auroral Snapshot Explorer R. C. Elphic,
- STRANGEWAY ET AL.: CUSP FIELD-ALIGNED CURRENTS 11 Plate 4. Expanded view of the cusp-region particle data for FAST orbit 8276. Plates 4a-4c show electron data,
