Add to ORKG14-19Nighttime F-region vertical electrodynamic drifts at Ibadan (lat. 7.4ºN, long. 3.9ºE; –6º dip) are obtained from the hourly-recorded ionosonde h′F data during 1957-58 International Geophysical Year (IGY) under geomagnetic quiet and disturbed conditions. The present results indicate strong seasonal variations in the drifts, even during quiet geomagnetic conditions. The downward nighttime average electrodynamic drift is found to be nearly 10 m/s. The drifts are consistently downward between ~2100 and 0500 hrs LT sector. The evening reversal time from upward daytime to downward nighttime does not vary much except during the June solstice months when it is found to be least, while it occurs early in December solstice and equinox. An equino...
Incoherent scatter radar observations of ion drifts taken at Millstone Hill (42.6°N, 288.5°E) during...
Radar and radio measurements have provided detailed information on the dependence of F-region electr...
Quiet-time ionospheric electric fields are derived for different universal times, seasons, and the m...
227-233 F-region vertical plasma drifts at the magnetic equatorial station, Ibadan (7.4 °N, 3.9 °E; ...
The ionospheric plasma drift is one of the most essential parameters for understanding the dynamics ...
F-region vertical velocities are derived from the ground-based ionosonde data for Ibadan (7.4°N, 3.9...
The nighttime vertical E x B drifts velocities of the F2-region were inferred from the hourly hmF2 v...
Night-time <i>F</i>-region vertical electrodynamic drifts at the magnetic equatorial sta...
F-region vertical velocities are derived from the ground-based ionosonde data for Ibadan (7.4°N, 3.9...
Night-time F-region vertical electrodynamic drifts at the magnetic equatorial station, Trivandrum a...
Ion drift meter observations from the Atmosphere Explorer E satellite during the period of January 1...
The plasma drifts or electric fields and their structures in the ionosphere affect the accuracy of t...
Ion drift meter observations from the Atmosphere Explorer E satellite during the period of January 1...
Ion drift meter observations from the Atmosphere Explorer E satellite during the period of January 1...
Vertical drift measurements have been made at Jicamarca for more than half a solar cycle. The data f...
Incoherent scatter radar observations of ion drifts taken at Millstone Hill (42.6°N, 288.5°E) during...
Radar and radio measurements have provided detailed information on the dependence of F-region electr...
Quiet-time ionospheric electric fields are derived for different universal times, seasons, and the m...
227-233 F-region vertical plasma drifts at the magnetic equatorial station, Ibadan (7.4 °N, 3.9 °E; ...
The ionospheric plasma drift is one of the most essential parameters for understanding the dynamics ...
F-region vertical velocities are derived from the ground-based ionosonde data for Ibadan (7.4°N, 3.9...
The nighttime vertical E x B drifts velocities of the F2-region were inferred from the hourly hmF2 v...
Night-time <i>F</i>-region vertical electrodynamic drifts at the magnetic equatorial sta...
F-region vertical velocities are derived from the ground-based ionosonde data for Ibadan (7.4°N, 3.9...
Night-time F-region vertical electrodynamic drifts at the magnetic equatorial station, Trivandrum a...
Ion drift meter observations from the Atmosphere Explorer E satellite during the period of January 1...
The plasma drifts or electric fields and their structures in the ionosphere affect the accuracy of t...
Ion drift meter observations from the Atmosphere Explorer E satellite during the period of January 1...
Ion drift meter observations from the Atmosphere Explorer E satellite during the period of January 1...
Vertical drift measurements have been made at Jicamarca for more than half a solar cycle. The data f...
Incoherent scatter radar observations of ion drifts taken at Millstone Hill (42.6°N, 288.5°E) during...
Radar and radio measurements have provided detailed information on the dependence of F-region electr...
Quiet-time ionospheric electric fields are derived for different universal times, seasons, and the m...