Topics
solar windRiver
geostationary orbitArtificialsatellite
We developed a new prediction model for forecasting relativistic (greater than 2MeV) electrons, which provides a VERY HIGH correlation between predicted and actually measured electron fluxes at geostationary orbit. This model implies the multi-step particle acceleration and is based on numerical integrating two linked continuity equations for primarily accelerated particles and relativistic electrons. The model includes a source and losses, and used solar wind data as only input parameters. We used the coupling function which is a best-fit combination of solar wind/interplanetary magnetic field parameters, responsible for the generation of geomagnetic activity, as a source. The loss function was derived from experimental data. We tested the...
We examine Los Alamos energetic electron data from 1979 through the present to show long term trends...
During the recovery phase of geomagnetic storms, the flux of relativistic (>2 MeV) electrons at...
We have investigated characteristic solar wind dynamics associated with relativistic electron events...
We developed a new prediction model for forecasting relativistic (>2MeV) electrons, which provide...
[1] A strong correlation between the behavior of low-energy (tens to hundreds of keV) and high-energ...
Forecast models were derived for energetic electrons at all energy ranges sampled by the third‐gener...
Forecast models were derived for energetic electrons at all energy ranges sampled by the third-gener...
The forecast of high energy electron fluxes in the radiation belts is important because the exposur...
A stochastic ensemble model composed of three functional forecasting models has been developed to fo...
The paper reviews studies of the dynamics of relativistic electrons in the geosynchronous region. It...
Many solar wind and magnetosphere parameters correlate with relativistic electron flux following sto...
The daily maximum relativistic electron flux at geostationary orbit can be predicted well with a set...
Since the advent of the Space Age, the importance of understanding and forecasting relativistic elec...
Forecast models were derived for energetic electrons at all energy ranges sampled by the third-gener...
The Wang–Sheeley–Arge (WSA) method is used to predict the solar wind speed (and certain other parame...
We examine Los Alamos energetic electron data from 1979 through the present to show long term trends...
During the recovery phase of geomagnetic storms, the flux of relativistic (>2 MeV) electrons at...
We have investigated characteristic solar wind dynamics associated with relativistic electron events...
We developed a new prediction model for forecasting relativistic (>2MeV) electrons, which provide...
[1] A strong correlation between the behavior of low-energy (tens to hundreds of keV) and high-energ...
Forecast models were derived for energetic electrons at all energy ranges sampled by the third‐gener...
Forecast models were derived for energetic electrons at all energy ranges sampled by the third-gener...
The forecast of high energy electron fluxes in the radiation belts is important because the exposur...
A stochastic ensemble model composed of three functional forecasting models has been developed to fo...
The paper reviews studies of the dynamics of relativistic electrons in the geosynchronous region. It...
Many solar wind and magnetosphere parameters correlate with relativistic electron flux following sto...
The daily maximum relativistic electron flux at geostationary orbit can be predicted well with a set...
Since the advent of the Space Age, the importance of understanding and forecasting relativistic elec...
Forecast models were derived for energetic electrons at all energy ranges sampled by the third-gener...
The Wang–Sheeley–Arge (WSA) method is used to predict the solar wind speed (and certain other parame...
We examine Los Alamos energetic electron data from 1979 through the present to show long term trends...
During the recovery phase of geomagnetic storms, the flux of relativistic (>2 MeV) electrons at...
We have investigated characteristic solar wind dynamics associated with relativistic electron events...
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