Add to ORKGPotential radiation hazards to crew members on manned Mars missions are discussed. It deals briefly with radiation sources and environments likely to be encountered during various phases of such missions, providing quantitative estimates of these environments. Also provided are quantitative data and discussions on the implications of such radiation on the human body. Various sorts of protective measures are suggested. Recent re-evaluation of allowable dose limits by the National Council of Radiation Protection is discussed, and potential implications from such activity are assessed
The radiation environment in space poses significant challenges to human health and is a major conce...
After decades of research on low-Earth orbit, national space agencies and private entrepreneurs are ...
In this study, results are presented from the on-board radiation assessment detector (RAD) of Mars S...
The problem of shielding a crew during early manned Mars missions is discussed. Requirements for shi...
This project has examined one specific issue facing human explorers at Mars - radiation dose from so...
To estimate the space radiation risks for the future planned Mars missions, the radiation fields in ...
While there are many potential risks in a Moon or Mars mission, one of the most important and unpred...
The Langley cosmic ray transport code and the Langley nucleon transport code (BRYNTRN) are used to q...
Space programs are shifting towards planetary exploration and, in particular, towards missions by hu...
Ionizing radiation represents one of the biggest biological limitations in human space missions. In ...
Radiation exposure is one of the greatest environmental threats to the performance and success of hu...
NASA is now focused on the agency's vision for space exploration encompassing a broad range of human...
Astronauts on a mission to Mars would be exposed for up to 3 years to galactic cosmic rays (GCR)--ma...
The Langley heavy-ion/nucleon transport code, HZETRN, and the high-energy nucleon transport code, BR...
Background: Space radiation is one of the principal environmental factors limiting the human toleran...
The radiation environment in space poses significant challenges to human health and is a major conce...
After decades of research on low-Earth orbit, national space agencies and private entrepreneurs are ...
In this study, results are presented from the on-board radiation assessment detector (RAD) of Mars S...
The problem of shielding a crew during early manned Mars missions is discussed. Requirements for shi...
This project has examined one specific issue facing human explorers at Mars - radiation dose from so...
To estimate the space radiation risks for the future planned Mars missions, the radiation fields in ...
While there are many potential risks in a Moon or Mars mission, one of the most important and unpred...
The Langley cosmic ray transport code and the Langley nucleon transport code (BRYNTRN) are used to q...
Space programs are shifting towards planetary exploration and, in particular, towards missions by hu...
Ionizing radiation represents one of the biggest biological limitations in human space missions. In ...
Radiation exposure is one of the greatest environmental threats to the performance and success of hu...
NASA is now focused on the agency's vision for space exploration encompassing a broad range of human...
Astronauts on a mission to Mars would be exposed for up to 3 years to galactic cosmic rays (GCR)--ma...
The Langley heavy-ion/nucleon transport code, HZETRN, and the high-energy nucleon transport code, BR...
Background: Space radiation is one of the principal environmental factors limiting the human toleran...
The radiation environment in space poses significant challenges to human health and is a major conce...
After decades of research on low-Earth orbit, national space agencies and private entrepreneurs are ...
In this study, results are presented from the on-board radiation assessment detector (RAD) of Mars S...