Add to ORKGOrbital flux integration for three selected mission altitudes and geographic instantaneous flux-mapping for nominal flight-path altitude were used to determine the external charged particle radiation predicted for the Infrared Astronomy Satellite. A current field model was used for magnetic field definitions for three nominal circular trajectories and for the geographic mapping positions. Innovative analysis features introduced include (1) positional fluxes as a function of time and energy for the most severe pass through the South Atlantic Anomaly; (2) total positional doses as a function of time and shield thickness; (3) comparison mapping fluxes for ratios of positional intensities to orbit integrated averages; and (4) statistical exposu...
Particle flux densities of radiation belts for atmospheric explorer missions C, D, and
Two DOSimetry TELescopes (DOSTELs) have been measuring the radiation environment in the Columbus mod...
An evaluation was made of the potential radiation hazards to the crew and equipment of a geosynchron...
The external (surface incident) charged particle radiation, predicted for the ST satellite at the th...
The charged particle fluxes to be encountered by spacecraft in circular orbits with inclinations of ...
The space radiation environment of the TOPEX spacecraft is investigated. A single trajectory was con...
Worst-case possible annual radiation fluences of energetic charged particles in the terrestrial spac...
The ambient trapped particle fluxes incident on the ATS-F satellite were determined. Several synchro...
The data obtained in earth orbit by the Radiation and Meteoroid Satellite (RMS) were interpreted and...
The orbital electron and proton flux calculations were performed for determining the applicability o...
This slide presentation reviews information on space radiation environments important to magnetosphe...
Vehicle encountered electron and proton fluxes were calculated for a set of nominal TIROS-N trajecto...
A special orbital radiation study was conducted for the SOLWIND project to evaluate mission-encounte...
Trapped particle radiation levels on several OSO missions were calculated for nominal trajectories u...
The space radiation environment is a complex mixture of particle types and energies originating from...
Particle flux densities of radiation belts for atmospheric explorer missions C, D, and
Two DOSimetry TELescopes (DOSTELs) have been measuring the radiation environment in the Columbus mod...
An evaluation was made of the potential radiation hazards to the crew and equipment of a geosynchron...
The external (surface incident) charged particle radiation, predicted for the ST satellite at the th...
The charged particle fluxes to be encountered by spacecraft in circular orbits with inclinations of ...
The space radiation environment of the TOPEX spacecraft is investigated. A single trajectory was con...
Worst-case possible annual radiation fluences of energetic charged particles in the terrestrial spac...
The ambient trapped particle fluxes incident on the ATS-F satellite were determined. Several synchro...
The data obtained in earth orbit by the Radiation and Meteoroid Satellite (RMS) were interpreted and...
The orbital electron and proton flux calculations were performed for determining the applicability o...
This slide presentation reviews information on space radiation environments important to magnetosphe...
Vehicle encountered electron and proton fluxes were calculated for a set of nominal TIROS-N trajecto...
A special orbital radiation study was conducted for the SOLWIND project to evaluate mission-encounte...
Trapped particle radiation levels on several OSO missions were calculated for nominal trajectories u...
The space radiation environment is a complex mixture of particle types and energies originating from...
Particle flux densities of radiation belts for atmospheric explorer missions C, D, and
Two DOSimetry TELescopes (DOSTELs) have been measuring the radiation environment in the Columbus mod...
An evaluation was made of the potential radiation hazards to the crew and equipment of a geosynchron...