Add to ORKGA large fraction (up to tens of percent) of the energy released in solar flares goes into accelerated ions and electrons, and studies indicate that these two populations have comparable energy content. RHESSI observations have shown a striking close linear correlation between the 2.223 MeV neutron-capture gamma-ray line and electron bremsstrahlung emission >300 keV, indicating that the flare acceleration of >^20 MeV protons and >300 keV electrons is roughly proportional over >3 orders of magnitude in fluence. We show that the correlations of neutron-capture line fluence with GOES class or with bremsstrahlung emission at lower energies show deviations from proportionality, primarily for flares with lower fluences. From analyzing thirteen fla...
Although both electron-ion and electron-electron bremsstrahlung contribute to the hard X-ray emissio...
Observations of solar flares in X-rays and gamma-rays provide the most direct information about the ...
International audience Aims: We aim to constrain the acceleration, injection, and transport processe...
solar flares accelerate both ions and electrons to high energies, and their x-ray and gamma-ray sign...
Solar flares are among the most energetic and interesting phenomena in the Solar system, releasing u...
A popular scenario for electron acceleration in solar flares is transit-time damping of low-frequenc...
Solar flares can release ~1e33 ergs of power, accelerate particles to relativistic speeds, heat plas...
Knowledge of the energy distribution of electrons accelerated in solar flares is important for const...
We review the observations bearing on electron and ion acceleration in solar flares, and the key cha...
High-energy X-rays and γ-rays from solar flares were discovered just over fifty years ago. Since tha...
Solar flares are huge explosions on the Sun that release a tremendous amount of energy from the coro...
A large fraction of the energy released during solar flares is carried by accelerated electrons and ...
This paper reviews a selection of observations in hard X-rays (HXR) and gamma-rays (GR) that allow u...
RHESSI observations of the 2002 July 23 solar flare have shown that hard X-rays and gamma rays are p...
The Reuven Ramaty High Energy Spectroscopic Imager (RHESSI) provides for the first time imaging spec...
Although both electron-ion and electron-electron bremsstrahlung contribute to the hard X-ray emissio...
Observations of solar flares in X-rays and gamma-rays provide the most direct information about the ...
International audience Aims: We aim to constrain the acceleration, injection, and transport processe...
solar flares accelerate both ions and electrons to high energies, and their x-ray and gamma-ray sign...
Solar flares are among the most energetic and interesting phenomena in the Solar system, releasing u...
A popular scenario for electron acceleration in solar flares is transit-time damping of low-frequenc...
Solar flares can release ~1e33 ergs of power, accelerate particles to relativistic speeds, heat plas...
Knowledge of the energy distribution of electrons accelerated in solar flares is important for const...
We review the observations bearing on electron and ion acceleration in solar flares, and the key cha...
High-energy X-rays and γ-rays from solar flares were discovered just over fifty years ago. Since tha...
Solar flares are huge explosions on the Sun that release a tremendous amount of energy from the coro...
A large fraction of the energy released during solar flares is carried by accelerated electrons and ...
This paper reviews a selection of observations in hard X-rays (HXR) and gamma-rays (GR) that allow u...
RHESSI observations of the 2002 July 23 solar flare have shown that hard X-rays and gamma rays are p...
The Reuven Ramaty High Energy Spectroscopic Imager (RHESSI) provides for the first time imaging spec...
Although both electron-ion and electron-electron bremsstrahlung contribute to the hard X-ray emissio...
Observations of solar flares in X-rays and gamma-rays provide the most direct information about the ...
International audience Aims: We aim to constrain the acceleration, injection, and transport processe...