Add to ORKGCurrent state-of-the-art knowledge of the solar wind, solar particle events, and galactic cosmic rays is reviewed for the development of space vehicle design criteria based on these interplanetary environments. These criteria are described quantitatively in terms of intensity, flux and fluence, and their dependences on time, position and energy, and the associated probabilities and related parameters, for electrons, protons and other ions
A new Interplanetary electron environment model based on statistical analyses of historical datasets...
Ionizing radiation is harmful to biological organisms and technological systems. In space, this radi...
The energetic charged particle environment in the Earth's magnetosphere was studied. An overview is ...
The design of space vehicles for operation in interplanetary space is given, based on descriptions o...
The effects of radiation environment in interplanetary space must be taken into account for spacecra...
The effects of the space radiation environment on spacecraft systems and instruments are significant...
During a workshop on the interplanetary charged particle environment held in 1987, a descriptive mod...
The astrophysical aspects of cosmic radiation and the radiation and electromagnetic field environmen...
Energetic solar particle events (SPE) and galactic cosmic rays (GCR) can have a significant effect o...
In this paper, a review of the present state of knowledge of solar particle emission is given, and t...
This slide presentation reviews information on space radiation environments important to magnetosphe...
The Cosmic Ray Effects on MicroElectronics (CREME) model that is currently in use to estimate single...
The scenario and fundamentals of the physics of charged particle interplanetary transport are briefl...
The Space environment is known to be populated by highly energetic particles. These particles origin...
Knowledge about the space radiation environment is crucial for the design and selection of materials...
A new Interplanetary electron environment model based on statistical analyses of historical datasets...
Ionizing radiation is harmful to biological organisms and technological systems. In space, this radi...
The energetic charged particle environment in the Earth's magnetosphere was studied. An overview is ...
The design of space vehicles for operation in interplanetary space is given, based on descriptions o...
The effects of radiation environment in interplanetary space must be taken into account for spacecra...
The effects of the space radiation environment on spacecraft systems and instruments are significant...
During a workshop on the interplanetary charged particle environment held in 1987, a descriptive mod...
The astrophysical aspects of cosmic radiation and the radiation and electromagnetic field environmen...
Energetic solar particle events (SPE) and galactic cosmic rays (GCR) can have a significant effect o...
In this paper, a review of the present state of knowledge of solar particle emission is given, and t...
This slide presentation reviews information on space radiation environments important to magnetosphe...
The Cosmic Ray Effects on MicroElectronics (CREME) model that is currently in use to estimate single...
The scenario and fundamentals of the physics of charged particle interplanetary transport are briefl...
The Space environment is known to be populated by highly energetic particles. These particles origin...
Knowledge about the space radiation environment is crucial for the design and selection of materials...
A new Interplanetary electron environment model based on statistical analyses of historical datasets...
Ionizing radiation is harmful to biological organisms and technological systems. In space, this radi...
The energetic charged particle environment in the Earth's magnetosphere was studied. An overview is ...