The magnetosphere is a major source of energy for the Earth’s ionosphere and thermosphere (IT) system. Current IT models drive the upper atmosphere using empirically calculated magnetospheric energy input. Thus, they do not sufficiently capture the storm-time dynamics, particularly at high latitudes. To improve the prediction capability of IT models, a physics-based magnetospheric input is necessary. Here, we use the Open Global General Circulation Model (OpenGGCM) coupled with the Coupled Thermosphere Ionosphere Model (CTIM). OpenGGCM calculates a three-dimensional global magnetosphere and a two-dimensional high-latitude ionosphere by solving resistive magnetohydrodynamic (MHD) equations with solar wind input. CTIM calculates a global ther...
We examine the global energetics of the solar wind magnetosphere-ionosphere system by using the glo...
Abstract. Current theories of F-layer storms are dis-cussed using numerical simulations with the Upp...
The thermosphere-ionosphere regions are mainly controlled by the solar, but also by geomagnetic acti...
The magnetosphere is a major source of energy for the Earth’s ionosphere and thermosphere (IT) syste...
The magnetosphere is a major source of energy for the Earth's ionosphere and thermosphere (IT) syste...
The perturbations in the magnetosphere-ionosphere-thermosphere system are significant during geomagn...
We present a case study of the 5 April 2010 geomagnetic storm using observations and numerical simul...
Since the ionosphere is impacting various communication and navigation applications relying on radio...
Current theories of F-layer storms are discussed using numerical simulations with the Upper Atmosph...
Significant perturbations were produced in the thermosphere-ionosphere-magnetosphere system during t...
The ionospheric instabilities produced by solar activity generate disturbances in ionospheric densit...
The Coupled Thermosphere Ionosphere Plasmasphere electrodynamics (CTIPe) model is a global physics-b...
The thermosphere and ionosphere are two overlapping regions of the atmosphere that are tightly coupl...
The terrestrial atmospheric region between the altitudes of 90 km and 600 km is known as the thermos...
Abstract The THEMIS mission provides unprecedented multi-point observations of the magnetosphere in ...
We examine the global energetics of the solar wind magnetosphere-ionosphere system by using the glo...
Abstract. Current theories of F-layer storms are dis-cussed using numerical simulations with the Upp...
The thermosphere-ionosphere regions are mainly controlled by the solar, but also by geomagnetic acti...
The magnetosphere is a major source of energy for the Earth’s ionosphere and thermosphere (IT) syste...
The magnetosphere is a major source of energy for the Earth's ionosphere and thermosphere (IT) syste...
The perturbations in the magnetosphere-ionosphere-thermosphere system are significant during geomagn...
We present a case study of the 5 April 2010 geomagnetic storm using observations and numerical simul...
Since the ionosphere is impacting various communication and navigation applications relying on radio...
Current theories of F-layer storms are discussed using numerical simulations with the Upper Atmosph...
Significant perturbations were produced in the thermosphere-ionosphere-magnetosphere system during t...
The ionospheric instabilities produced by solar activity generate disturbances in ionospheric densit...
The Coupled Thermosphere Ionosphere Plasmasphere electrodynamics (CTIPe) model is a global physics-b...
The thermosphere and ionosphere are two overlapping regions of the atmosphere that are tightly coupl...
The terrestrial atmospheric region between the altitudes of 90 km and 600 km is known as the thermos...
Abstract The THEMIS mission provides unprecedented multi-point observations of the magnetosphere in ...
We examine the global energetics of the solar wind magnetosphere-ionosphere system by using the glo...
Abstract. Current theories of F-layer storms are dis-cussed using numerical simulations with the Upp...
The thermosphere-ionosphere regions are mainly controlled by the solar, but also by geomagnetic acti...