Add to ORKGHuman exposure to trapped electrons and protons in low Earth orbit (LEO) is evaluated on a basis of a simple approximation of the human geometry for spherical shell shields of varying thickness. A data base is presented that may be used to make preliminary assessment of the impact of radiation exposure constraints on human performance. Detailed shielding studies should be performed before final design considerations. A sample impact assessment is discussed on the basis of presently accepted allowable exposure limits. A brief discussion is given on the anticipated impact of an ongoing reassessment of allowable exposure limits
Human spaceflight is entering a new era of sustainable human space exploration. By 2030 humans will ...
This project sought to locate articles containing data on radiation dosimetry in outer space, to use...
Ongoing assembly and maintenance activities at the International Space Station (ISS) require much mo...
Human exposure to trapped radiations in low Earth orbit (LEO) are evaluated on the basis of a simple...
Cosmic Study Group SG 3.19/1.10 was established in February 2013 under the aegis of the Internationa...
The radiation exposure in the region of geostationary orbits is examined in search for means of opti...
After decades of research on low-Earth orbit, national space agencies and private entrepreneurs are ...
The Hybrid Inflatable DSH combined with electric propulsion and high power solar-electric power syst...
Spacecraft, space stations, satellites and astronauts are exposed to an increased level of radiation...
It is well known that outside the Earth\u27s protective atmosphere and magnetosphere, the environmen...
NASA's long-range plans include possible human exploratory missions to the moon and Mars within the ...
Despite years of research, understanding of the space radiation environment and the risk it poses to...
Electron penetration calculational techniques are reviewed with regard to their suitability for shie...
NASA's current radiation protection guidelines date from 1970, when the career limit was set at 400 ...
Permissible exposure limits (PELs) for short-term and career astronaut exposures to space radiation ...
Human spaceflight is entering a new era of sustainable human space exploration. By 2030 humans will ...
This project sought to locate articles containing data on radiation dosimetry in outer space, to use...
Ongoing assembly and maintenance activities at the International Space Station (ISS) require much mo...
Human exposure to trapped radiations in low Earth orbit (LEO) are evaluated on the basis of a simple...
Cosmic Study Group SG 3.19/1.10 was established in February 2013 under the aegis of the Internationa...
The radiation exposure in the region of geostationary orbits is examined in search for means of opti...
After decades of research on low-Earth orbit, national space agencies and private entrepreneurs are ...
The Hybrid Inflatable DSH combined with electric propulsion and high power solar-electric power syst...
Spacecraft, space stations, satellites and astronauts are exposed to an increased level of radiation...
It is well known that outside the Earth\u27s protective atmosphere and magnetosphere, the environmen...
NASA's long-range plans include possible human exploratory missions to the moon and Mars within the ...
Despite years of research, understanding of the space radiation environment and the risk it poses to...
Electron penetration calculational techniques are reviewed with regard to their suitability for shie...
NASA's current radiation protection guidelines date from 1970, when the career limit was set at 400 ...
Permissible exposure limits (PELs) for short-term and career astronaut exposures to space radiation ...
Human spaceflight is entering a new era of sustainable human space exploration. By 2030 humans will ...
This project sought to locate articles containing data on radiation dosimetry in outer space, to use...
Ongoing assembly and maintenance activities at the International Space Station (ISS) require much mo...