Add to ORKGA numerical model of the low-altitude energetic electron radiation belt, including the effects of pitch angle diffusion into the atmosphere and azimuthal drift, predicts lifetimes and longitude-dependent loss rates as a function of electron energy and diffusion coefficient. It is constrained by high-altitude (∼20,000 km) satellite measurements of the energy spectra and pitch angle distributions and then fit to low-altitude (∼600 km) data that are sensitive to the longitude dependence of the electron losses. The fits provide estimates of the parameterized diffusion coefficient. The results show that the simple drift-diffusion model can account for the main features of the low-altitude radiation belt inside the plasmasphere during periods of ...
Outer zone radiation belt electrons can undergo gyroresonant interaction with various magnetospheric...
Variations in the high-energy relativistic electron flux of the radiation belts depend on transport,...
Abstract A new 3-D diffusion code is used to investigate the inward intrusion and slow decay of ener...
A numerical model of the low-altitude energetic electron radiation belt, including the effects of pi...
The first year of work on this project has been completed. This report provides a summary of the pro...
In the Earth's radiation belts the flux of relativistic electrons is highly variable, sometimes chan...
Relativistic electrons in the magnetosphere are both energized and lost via their interaction with p...
Modern society relies substantially on satellite technology as it is involved in vital services like...
We simulate the behaviour of relativistic (976 keV) electrons in the outer radiation belt (3 ≤ L ≤ 7...
The electron radiation belts are regions of geomagnetically trapped electrons, surrounding the Earth...
Large geomagnetic storms are associated with electron population changes in the outer radiation belt...
Abstract. Pitch angle diffusion rates due to Coulomb collisions and resonant interactions with plasm...
Using 14 years of electron flux data from the National Oceanic and Atmospheric Administration Polar ...
Measurements from 7 spacecraft in geosynchronous orbit are analyzed to determine the decay rate of t...
The outer electron radiation belt is highly dynamic in space and time. Understanding the mechanisms ...
Outer zone radiation belt electrons can undergo gyroresonant interaction with various magnetospheric...
Variations in the high-energy relativistic electron flux of the radiation belts depend on transport,...
Abstract A new 3-D diffusion code is used to investigate the inward intrusion and slow decay of ener...
A numerical model of the low-altitude energetic electron radiation belt, including the effects of pi...
The first year of work on this project has been completed. This report provides a summary of the pro...
In the Earth's radiation belts the flux of relativistic electrons is highly variable, sometimes chan...
Relativistic electrons in the magnetosphere are both energized and lost via their interaction with p...
Modern society relies substantially on satellite technology as it is involved in vital services like...
We simulate the behaviour of relativistic (976 keV) electrons in the outer radiation belt (3 ≤ L ≤ 7...
The electron radiation belts are regions of geomagnetically trapped electrons, surrounding the Earth...
Large geomagnetic storms are associated with electron population changes in the outer radiation belt...
Abstract. Pitch angle diffusion rates due to Coulomb collisions and resonant interactions with plasm...
Using 14 years of electron flux data from the National Oceanic and Atmospheric Administration Polar ...
Measurements from 7 spacecraft in geosynchronous orbit are analyzed to determine the decay rate of t...
The outer electron radiation belt is highly dynamic in space and time. Understanding the mechanisms ...
Outer zone radiation belt electrons can undergo gyroresonant interaction with various magnetospheric...
Variations in the high-energy relativistic electron flux of the radiation belts depend on transport,...
Abstract A new 3-D diffusion code is used to investigate the inward intrusion and slow decay of ener...