Add to ORKGUnlike the Earth, Mars and asteroids do not have a magnetosphere to protect humans, mechanisms and electronics from damaging Galactic Cosmic Radiation (GCR) and solar particle events (SPE). This presents one of the highest risks to crew and onboard electronics during interplanetary journeys. The goal of this project is to evaluate the effectiveness of carbonaceous asteroids and other hydrogen-rich materials as potential radiation shielding materials, which ultimately could be tested during planned crewed missions to a captured asteroid fragment (ARM). This type of investigation represents an initial effort to develop radiation shield material compositions, production methods and technologies, and optimization methodology for manufacturing r...
The surface of Mars is bombarded by energetic charged particles of solar and galactic origin with li...
This chapter discusses regolith utilization in habitat construction mainly from the point of view of...
For long-duration missions on other planetary bodies, the use of in-situ materials will become incre...
Mission crews in space outside the Earth s magnetic field will be exposed to high energy heavy charg...
Galactic Cosmic Rays (GCRs) and Solar Energetic Particles (SEPs) pose a serious limit on the duratio...
One major obstacle to human space exploration is the possible limitations imposed by the adverse eff...
Theoretical calculations of radiation attenuation due to energetic galactic cosmic rays behind Marti...
An analysis of the radiation hazards in support of NASA deep space exploration activities is present...
The environment on the Martian surface is characterized by a complex radiation field that poses seri...
Plans for interplanetary manned space missions imply significant risks arising from human's exposure...
A significant obstacle to long duration human space exploration such as the establishment of a perma...
The prospect of manned space missions outside Earth's orbit is limited by the travel time and shield...
To enable the planned rapid growth of both government and private operators in space, including sate...
Graduation date: 2006As human exploration of space continues, eventually sights will be set on estab...
Radiation shielding materials are an essential component of long-term space travel and habitation. T...
The surface of Mars is bombarded by energetic charged particles of solar and galactic origin with li...
This chapter discusses regolith utilization in habitat construction mainly from the point of view of...
For long-duration missions on other planetary bodies, the use of in-situ materials will become incre...
Mission crews in space outside the Earth s magnetic field will be exposed to high energy heavy charg...
Galactic Cosmic Rays (GCRs) and Solar Energetic Particles (SEPs) pose a serious limit on the duratio...
One major obstacle to human space exploration is the possible limitations imposed by the adverse eff...
Theoretical calculations of radiation attenuation due to energetic galactic cosmic rays behind Marti...
An analysis of the radiation hazards in support of NASA deep space exploration activities is present...
The environment on the Martian surface is characterized by a complex radiation field that poses seri...
Plans for interplanetary manned space missions imply significant risks arising from human's exposure...
A significant obstacle to long duration human space exploration such as the establishment of a perma...
The prospect of manned space missions outside Earth's orbit is limited by the travel time and shield...
To enable the planned rapid growth of both government and private operators in space, including sate...
Graduation date: 2006As human exploration of space continues, eventually sights will be set on estab...
Radiation shielding materials are an essential component of long-term space travel and habitation. T...
The surface of Mars is bombarded by energetic charged particles of solar and galactic origin with li...
This chapter discusses regolith utilization in habitat construction mainly from the point of view of...
For long-duration missions on other planetary bodies, the use of in-situ materials will become incre...