We constructed a time-dependent, three-dimensional, multi-ion numerical model of the global ionosphere at F region altitudes. The model takes account of all the processes included in the existing regional models of the ionosphere. The inputs needed for our global model are the neutral temperature, composition, and wind; the magnetospheric and equatorial electric field distributions; the auroral precipitation pattern; the solar EUV spectrum; and a magnetic field model. The model produces ion (NO+, O2+, N2+, N+, O+, He+) density distributions as a function of time. For our first global study, we selected solar maximum, low geomagnetic activity, and June solstice conditions. From this study we found the following: (1) The global ionosphere exh...
A three-dimensional, time dependent, nested grid model has been developed to study mesoscale process...
Historically, the high latitude ionosphere has been viewed as the most complex of the ionospheric re...
The response of the polar ionosphere to magnetospheric storm inputs was modeled. During the “storm,”...
We combined a simple plasma convection model with an ionospheric-atmospheric composition model in or...
During the last decade, ionospheric F region modeling has reached an accurate climatological level. ...
A time-dependent, three-dimensional, multi-ion model of the global ionosphere-polar wind system was ...
A time-dependent, three-dimensional, multi-ion numerical model of the global ionosphere was used to ...
The thermosphere and ionosphere are two overlapping regions of the atmosphere that are tightly coupl...
International audienceCurrent theories of F-layer storms are discussed using numerical simulations w...
We combined a simple plasma convection model with an ionospheric-atmospheric composition model in or...
International audienceA physical model of the coupled thermosphere and ionosphere has been used to d...
A time-dependent global model of the polar wind was used to study transient polar wind perturbations...
International audienceA new three-dimensional, time-dependent theoretical model of the Earth's low a...
Abstract The recently created global ionosphere-thermosphere model (GITM) is presented. GITM uses a ...
We combined a simple plasma convection model with an ionospheric-atmospheric density model in order ...
A three-dimensional, time dependent, nested grid model has been developed to study mesoscale process...
Historically, the high latitude ionosphere has been viewed as the most complex of the ionospheric re...
The response of the polar ionosphere to magnetospheric storm inputs was modeled. During the “storm,”...
We combined a simple plasma convection model with an ionospheric-atmospheric composition model in or...
During the last decade, ionospheric F region modeling has reached an accurate climatological level. ...
A time-dependent, three-dimensional, multi-ion model of the global ionosphere-polar wind system was ...
A time-dependent, three-dimensional, multi-ion numerical model of the global ionosphere was used to ...
The thermosphere and ionosphere are two overlapping regions of the atmosphere that are tightly coupl...
International audienceCurrent theories of F-layer storms are discussed using numerical simulations w...
We combined a simple plasma convection model with an ionospheric-atmospheric composition model in or...
International audienceA physical model of the coupled thermosphere and ionosphere has been used to d...
A time-dependent global model of the polar wind was used to study transient polar wind perturbations...
International audienceA new three-dimensional, time-dependent theoretical model of the Earth's low a...
Abstract The recently created global ionosphere-thermosphere model (GITM) is presented. GITM uses a ...
We combined a simple plasma convection model with an ionospheric-atmospheric density model in order ...
A three-dimensional, time dependent, nested grid model has been developed to study mesoscale process...
Historically, the high latitude ionosphere has been viewed as the most complex of the ionospheric re...
The response of the polar ionosphere to magnetospheric storm inputs was modeled. During the “storm,”...