Add to ORKGAuroral E-region electron density height profile modification by electric field driven vertical plasma transport: some evidence in EISCAT CP-1 data statistic
Two auroras sampled nearly simultaneously at high and low altitudes along a field line by the Dynami...
The profile of intense high-altitude electric fields on auroral field lines has been studied using ...
It has been shown in previous studies that at 110 km altitude, the electron temperature can be quite...
Auroral E-region electron density height profile modificationby electric field driven vertical plasm...
A model developed several years ago by Huuskonen et al. (1984) predicted that vertical transpo...
In the theory of E-region plasma instabilities, the ambient electric field and electron density gra...
International audienceThe role of intense high-altitude electric field (E-field) peaks for large-sca...
Intense high-altitude auroral electric fields – temporal and spatial characteristic
International audienceCluster electric field, magnetic field, and energetic electron data are analyz...
International audienceHigh time and space resolution optical and radar measurements have revealed th...
The Ninth Symposium on Polar Science/Ordinary sessions: [OS] Space and upper-atmosphere sciences, We...
High-resolution vertical electron density true height profiles from Athens Digisonde are used to cal...
Electron precipitation of magnetospheric origin causes additional ionization in the auroral zone at ...
Haldoupis et al. (1982), Uspensky et al. (1983) and Starkov et al. (1983) have recently found that t...
On the profile of intense high-altitude auroral electric fields at magnetospheric boundarie
Two auroras sampled nearly simultaneously at high and low altitudes along a field line by the Dynami...
The profile of intense high-altitude electric fields on auroral field lines has been studied using ...
It has been shown in previous studies that at 110 km altitude, the electron temperature can be quite...
Auroral E-region electron density height profile modificationby electric field driven vertical plasm...
A model developed several years ago by Huuskonen et al. (1984) predicted that vertical transpo...
In the theory of E-region plasma instabilities, the ambient electric field and electron density gra...
International audienceThe role of intense high-altitude electric field (E-field) peaks for large-sca...
Intense high-altitude auroral electric fields – temporal and spatial characteristic
International audienceCluster electric field, magnetic field, and energetic electron data are analyz...
International audienceHigh time and space resolution optical and radar measurements have revealed th...
The Ninth Symposium on Polar Science/Ordinary sessions: [OS] Space and upper-atmosphere sciences, We...
High-resolution vertical electron density true height profiles from Athens Digisonde are used to cal...
Electron precipitation of magnetospheric origin causes additional ionization in the auroral zone at ...
Haldoupis et al. (1982), Uspensky et al. (1983) and Starkov et al. (1983) have recently found that t...
On the profile of intense high-altitude auroral electric fields at magnetospheric boundarie
Two auroras sampled nearly simultaneously at high and low altitudes along a field line by the Dynami...
The profile of intense high-altitude electric fields on auroral field lines has been studied using ...
It has been shown in previous studies that at 110 km altitude, the electron temperature can be quite...