The tissue dose calculations of Kinney were used to calculate several importance functions associated with the dose from primary and secondary particles in the tissue due to penetration of an aluminum shield by a solar-flare proton spectrum. Secondary particles produced in the shield were not considered. (auth
The dose rate and integrated dose, inside a shield, due to an arbitrary proton flux was calculated. ...
Tissue dosages from alpha particles and heavy nuclei in solar particle beams in spac
The solar particle event (SPE) of September 29, 1989, produced an iron-rich spectrum with energies a...
Human exposure to space radiation implies two kinds of risk, both stochastic and deterministic. Shi...
Using the straight-ahead approximation, nucleon-meson cascade calculations were carried out for seve...
Human exposure to space radiation implies two kinds of risk, both stochastic and deterministic. Shie...
Distributions of absorbed dose and DNA clustered damage yields in various organs and tissues followi...
Using the straight-ahead approximation, nucleon-meson cascade calculations have been carried out for...
The available information on the shielding of manned space vehicles against protons and alpha partic...
This paper introduces the physics of space radiation and its importance in the context of a manned s...
One major obstacle to human space exploration is the possible limitations imposed by the adverse eff...
Abstract: Astronauts’ exposure to space radiation is of high concern for long-term missions, e...
NASA is moving forward towards the agency’s new vision for space exploration in the 21st Century enc...
We discuss calculations of probability distribution functions (PDF) representing uncertainties in pr...
The major uncertainties on space radiation risk estimates in humans are associated to the poor knowl...
The dose rate and integrated dose, inside a shield, due to an arbitrary proton flux was calculated. ...
Tissue dosages from alpha particles and heavy nuclei in solar particle beams in spac
The solar particle event (SPE) of September 29, 1989, produced an iron-rich spectrum with energies a...
Human exposure to space radiation implies two kinds of risk, both stochastic and deterministic. Shi...
Using the straight-ahead approximation, nucleon-meson cascade calculations were carried out for seve...
Human exposure to space radiation implies two kinds of risk, both stochastic and deterministic. Shie...
Distributions of absorbed dose and DNA clustered damage yields in various organs and tissues followi...
Using the straight-ahead approximation, nucleon-meson cascade calculations have been carried out for...
The available information on the shielding of manned space vehicles against protons and alpha partic...
This paper introduces the physics of space radiation and its importance in the context of a manned s...
One major obstacle to human space exploration is the possible limitations imposed by the adverse eff...
Abstract: Astronauts’ exposure to space radiation is of high concern for long-term missions, e...
NASA is moving forward towards the agency’s new vision for space exploration in the 21st Century enc...
We discuss calculations of probability distribution functions (PDF) representing uncertainties in pr...
The major uncertainties on space radiation risk estimates in humans are associated to the poor knowl...
The dose rate and integrated dose, inside a shield, due to an arbitrary proton flux was calculated. ...
Tissue dosages from alpha particles and heavy nuclei in solar particle beams in spac
The solar particle event (SPE) of September 29, 1989, produced an iron-rich spectrum with energies a...
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