First results from REPTile‐2 measurements onboard CIRBE
Abstract CIRBE (Colorado Inner Radiation Belt Experiment), a 3U CubeSat, was launched
on 15 April 2023 into a sun synchronous orbit (97.4° inclination and 509 km altitude). The …
on 15 April 2023 into a sun synchronous orbit (97.4° inclination and 509 km altitude). The …
Rapid acceleration bursts in the Van Allen radiation belt
Abstract The fast Van Allen radiation belt electron dynamics during geomagnetic storms
have not yet been fully explained, in part due to limitations of standard satellite missions in …
have not yet been fully explained, in part due to limitations of standard satellite missions in …
The evolution of Earth's outer radiation belt over geomagnetic storm phase in Van Allen Probe era
X Wang, L Dai, R Yong, S Xiong… - Journal of Geophysical …, 2024 - Wiley Online Library
Earth's outer radiation belts are highly dynamic during geomagnetic storms. Using electron
flux data from 226 keV to 2.6 MeV measured by the Van Allen Probes, we statistically …
flux data from 226 keV to 2.6 MeV measured by the Van Allen Probes, we statistically …
Electron resonant interaction with coherent ULF waves: Hamiltonian approach
A Artemyev, X An, D Vainchtein… - Journal of …, 2024 - Wiley Online Library
Electron resonant interaction with ultra‐low‐frequency (ULF) waves is considered to be a
driver of electron radial transport in Earth's inner magnetosphere. Traditional concept of …
driver of electron radial transport in Earth's inner magnetosphere. Traditional concept of …
Radial Diffusion Driven by Spatially Localized ULF Waves in the Earth's Magnetosphere
Ultra-Low Frequency (ULF) waves are critical drivers of particle acceleration and loss in the
Earth's magnetosphere. While statistical models of ULF-induced radial transport have …
Earth's magnetosphere. While statistical models of ULF-induced radial transport have …
Two methods to analyse radial diffusion ensembles: the peril of space-and time-dependent diffusion
SN Bentley, J Stout, R Thompson, DJ Ratliff… - arXiv preprint arXiv …, 2024 - arxiv.org
Particle dynamics in Earth's outer radiation belt can be modelled using a diffusion
framework, where large-scale electron movements are captured by a diffusion equation …
framework, where large-scale electron movements are captured by a diffusion equation …
Characteristic times for radiation belt drift phase mixing
Impulsive radial transport events occurring in the radiation belts leave lasting marks in the
form of drift echoes, that is, energy-dependent drift phase structures in the radiation belts that …
form of drift echoes, that is, energy-dependent drift phase structures in the radiation belts that …
Impact of solar cycle on the non-linearity of the relationship between the solar wind parameters and geomagnetic conditions
Solar wind and its transients drive the dynamics of Earth's magnetosphere. Interplanetary
coronal mass ejections (ICMEs) induce the largest variations in the near-Earth space, but …
coronal mass ejections (ICMEs) induce the largest variations in the near-Earth space, but …
[PDF][PDF] Fast radial transport of equatorially trapped particles in the Earth's radiation belts
S Takala, E Kilpua - 2024 - helda.helsinki.fi
In 1958 the first US satellite, Explorer 1, reported unexpectedly low cosmic ray counts
around the Earth. The data was examined by a research team led by space physicist James …
around the Earth. The data was examined by a research team led by space physicist James …
[PDF][PDF] Impact of solar cycle on the non-linearity of the relationship between the solar wind parameters and geomagnetic conditions
H Sanni, K Emilia, O Adnane, T Lucile, S Mikko… - scholar.archive.org
Solar wind and its transients drive the dynamics of Earth's magnetosphere. Interplanetary
coronal mass ejections (ICMEs) induce the largest variations in the near-Earth space, but …
coronal mass ejections (ICMEs) induce the largest variations in the near-Earth space, but …