Add to ORKGInternational audienceNew characteristics of O+ ion velocity distribution functions in a background of atomic oxygen neutrals subjected to intense external electromagnetic forces are presented. The one dimensional (1-D) distribution function along the magnetic field displays a core-halo shape which can be accurately fitted by a two Maxwellian model. The Maxwellian shape of the 1-D distribution function around a polar angle of 21 ± 1° from the magnetic field direction is confirmed, taking into account the accuracy of the Monte Carlo simulations. For the first time, the transition of the O+ 1-D distribution function from a core halo shape along the magnetic field direction to the well-known toroidal shape at large polar angles, through the Ma...
Recent observations from the EISCAT incoherent scatter radar have revealed bursts of poleward ion fl...
Observations by the EISCAT experiments “POLAR” and Common Programme CP-3 reveal non-Maxwellian ion v...
Flows of thermal atomic oxygen (O+) ions are deduced from topside ionospheric plasma density profile...
International audienceNew characteristics of O+ ion velocity distribution functions in a background ...
Abstract. New characteristics of O ion velocity distribution functions in a background of atomic ox...
We perform numerical simulations for the acceleration of O + ions in a potential well which has an e...
We have calculated the effect that convection electric fields have on the velocity distribution of a...
We have used Monte Carlo simulations of O+ velocity distributions in the high latitude F- region to ...
Abstract. Recent observations from the EISCAT neutral thermal speed. However, for larger incoherent ...
Aurorae often break down into elongated filaments parallel to the geomagnetic field lines (B) with c...
In magnetically perturbed periods, we have to consider a non-Maxwellian ion-velocity distribution-fu...
Abstract. A global, time-dependent, three-dimensional, coupled ionosphere-thermosphere model is used...
Abstract. Flows of thermal atomic oxygen (0 +) ions are deduced from topside ionospheric plasma dens...
Observations by the EISCAT experiments “POLAR ” and Common Programme CP-3 reveal non-Maxwellian ion ...
A global, time-dependent, three-dimensional, coupled ionosphere-thermosphere model is used to predic...
Recent observations from the EISCAT incoherent scatter radar have revealed bursts of poleward ion fl...
Observations by the EISCAT experiments “POLAR” and Common Programme CP-3 reveal non-Maxwellian ion v...
Flows of thermal atomic oxygen (O+) ions are deduced from topside ionospheric plasma density profile...
International audienceNew characteristics of O+ ion velocity distribution functions in a background ...
Abstract. New characteristics of O ion velocity distribution functions in a background of atomic ox...
We perform numerical simulations for the acceleration of O + ions in a potential well which has an e...
We have calculated the effect that convection electric fields have on the velocity distribution of a...
We have used Monte Carlo simulations of O+ velocity distributions in the high latitude F- region to ...
Abstract. Recent observations from the EISCAT neutral thermal speed. However, for larger incoherent ...
Aurorae often break down into elongated filaments parallel to the geomagnetic field lines (B) with c...
In magnetically perturbed periods, we have to consider a non-Maxwellian ion-velocity distribution-fu...
Abstract. A global, time-dependent, three-dimensional, coupled ionosphere-thermosphere model is used...
Abstract. Flows of thermal atomic oxygen (0 +) ions are deduced from topside ionospheric plasma dens...
Observations by the EISCAT experiments “POLAR ” and Common Programme CP-3 reveal non-Maxwellian ion ...
A global, time-dependent, three-dimensional, coupled ionosphere-thermosphere model is used to predic...
Recent observations from the EISCAT incoherent scatter radar have revealed bursts of poleward ion fl...
Observations by the EISCAT experiments “POLAR” and Common Programme CP-3 reveal non-Maxwellian ion v...
Flows of thermal atomic oxygen (O+) ions are deduced from topside ionospheric plasma density profile...