The Arase satellite challenges direct measurements of the wave particle interaction (energy transfer between plasma particles and waves) using the coordinated observation of plasma particle detectors (Medium-Energy Particle Experiments Electron Analyzer; MEP-e, High-Energy Electron Experiments; HEP, and Extremely High-Energy Electron Experiment; XEP) and the PWE.
In parallel, near-real-time magnetic field data are compiled with data from the extremely high-energy electron experiments (XEP) instrument and high-energy electron experiments (HEP) instrument in space-weather telemetry packets, and downlinked immediately for near-real-time monitoring of the inner magnetosphere.
HEP-L and HEP-H: High-Energy Electron Experiments with low- and high-energy measurements, respectively (Mitani et al. submitted to Earth, Planets, and Space).
2018a) HEP-L and HEP-H: High-Energy Electron Experiments with low- and high-energy measurements, respectively (Mitani et al. submitted to Earth, Planets, and Space) XEP: Extremely High-Energy Electron Experiment (Higashio et al. submitted to Earth, Planets, and Space) MGF: Magnetic Field Experiment (Matsuoka et al. 2018).
The S-WPIA on board the Arase satellite uses an electromagnetic field waveform that is measured by the waveform capture receiver of the plasma wave experiment (PWE), and the velocity vectors of electrons detected by the medium-energy particle experiment electron analyzer (MEP-e), the high-energy electron experiment (HEP), and the extremely high-energy electron experiment (XEP).
high-energy electron experiments.
extremely high-energy electron experiments.
Here, we report a comprehensive study that combines in situ scanning electron microscopy experiments and atomistic simulations to quantify the effect of crystal size on the transformation in deformation modes in a-axis oriented Mg single crystals at room temperature.
We thank Yaacov Delarea for help with electron microscopy experiments and Prof. David Gubb for fly stocks.
We thank Yaacov Delarea, Dr. Yosi Lereah and Dan Davidi for help with electron microscopy experiments and Prof. David Gubb for fly stocks.
