Add to ORKGIn a nonequilibrium model that includes shock-induced acceleration, we simulate the charge state and energy spectra of solar energetic iron. In this model the mean charge state exhibits an energy dependence seen in recent large solar events by SAMPEX and ACE. The simulated energy spectrum is a power-law and charge distributions are roughly Gaussians. The density distributions are smooth in charge-momentum space, suggesting that the accelerated ion retains no memory of its initial charge as well as momentum conditions
The charge states of energetic iron have been measured directly for the first time in a solar partic...
We examine the range of possible energy dependence of the ionization states of ions that are shock-a...
Con objeto de reproducir la evolución con energía de los estados de carga observacionales de los ion...
In a nonequilibrium model that includes shock-induced acceleration, we simulate the charge state and...
Observed charge states of solar energetic ions by Solar, Anomalous, and Magnetospheric Particle Expl...
Recent measurements of the mean ionic charge states of solar energetic iron and silicon by SAMPEX an...
We consider a uniÐed model of Fe ion acceleration in the solar corona. The model comprises charge-ch...
Recent measurements of the mean ionic charge states of solar energetic iron and silicon by SAMPEX an...
We examine the energy-dependent rates of charge-changing processes of energetic Fe ions in the hot ...
Ionic charge states of solar energetic particles (SEPs) provide information about their source envir...
A novel technique to infer average ionic charge states of high energy (≥ 10 MeV/nuc) solar energetic...
In some large solar energetic particle (SEP) events, the intensities of higher energy SEPs decay mor...
Ionic charge states of solar energetic particles (SEPs) provide information about their source envir...
In some large solar energetic particle (SEP) events, the intensities of higher energy SEPs decay mor...
We examine the energy-dependent rates of charge-changing processes of energetic Fe ions in the hot p...
The charge states of energetic iron have been measured directly for the first time in a solar partic...
We examine the range of possible energy dependence of the ionization states of ions that are shock-a...
Con objeto de reproducir la evolución con energía de los estados de carga observacionales de los ion...
In a nonequilibrium model that includes shock-induced acceleration, we simulate the charge state and...
Observed charge states of solar energetic ions by Solar, Anomalous, and Magnetospheric Particle Expl...
Recent measurements of the mean ionic charge states of solar energetic iron and silicon by SAMPEX an...
We consider a uniÐed model of Fe ion acceleration in the solar corona. The model comprises charge-ch...
Recent measurements of the mean ionic charge states of solar energetic iron and silicon by SAMPEX an...
We examine the energy-dependent rates of charge-changing processes of energetic Fe ions in the hot ...
Ionic charge states of solar energetic particles (SEPs) provide information about their source envir...
A novel technique to infer average ionic charge states of high energy (≥ 10 MeV/nuc) solar energetic...
In some large solar energetic particle (SEP) events, the intensities of higher energy SEPs decay mor...
Ionic charge states of solar energetic particles (SEPs) provide information about their source envir...
In some large solar energetic particle (SEP) events, the intensities of higher energy SEPs decay mor...
We examine the energy-dependent rates of charge-changing processes of energetic Fe ions in the hot p...
The charge states of energetic iron have been measured directly for the first time in a solar partic...
We examine the range of possible energy dependence of the ionization states of ions that are shock-a...
Con objeto de reproducir la evolución con energía de los estados de carga observacionales de los ion...