Difference between revisions of "Radiation"
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Natural '''Radiation''' on [[Mars]] is much higher compared with [[Earth]]. The thin [[atmosphere]] provides only a small shielding effect against harmful [[solar radiation]] and [[cosmic radiation]]. Mars also lacks the [[magnetosphere]] that protects Earth. | Natural '''Radiation''' on [[Mars]] is much higher compared with [[Earth]]. The thin [[atmosphere]] provides only a small shielding effect against harmful [[solar radiation]] and [[cosmic radiation]]. Mars also lacks the [[magnetosphere]] that protects Earth. | ||
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+ | Occasional [[solar flares]] produce particular high doses. Some solar proton events (SPEs) were observed by [[MARIE]] that were not seen by sensors near Earth due to the fact that SPEs are directional. Astronauts on Mars could be warned of SPEs by sensors closer to the Sun and presumably take shelter during these events. This would imply an [[Early warning system (solar radiation)|Early Warning System]] (possibly a network of sensors in orbit around the sun or a single sensor in [[Lagrangian point]] L1) might be needed to ensure all SPEs threatening Mars were detected early enough. | ||
==Types of Radiation== | ==Types of Radiation== |
Revision as of 11:28, 1 December 2009
Natural Radiation on Mars is much higher compared with Earth. The thin atmosphere provides only a small shielding effect against harmful solar radiation and cosmic radiation. Mars also lacks the magnetosphere that protects Earth.
Occasional solar flares produce particular high doses. Some solar proton events (SPEs) were observed by MARIE that were not seen by sensors near Earth due to the fact that SPEs are directional. Astronauts on Mars could be warned of SPEs by sensors closer to the Sun and presumably take shelter during these events. This would imply an Early Warning System (possibly a network of sensors in orbit around the sun or a single sensor in Lagrangian point L1) might be needed to ensure all SPEs threatening Mars were detected early enough.
Contents
Types of Radiation
Radiation comes in a variety of forms:[1]
Name | Relative Biological Effectiveness RBE |
Source |
---|---|---|
X-Rays and Gamma Rays | 1 | Radiation belts, solar radiation, and bremsstrahlung electrons |
Electrons 1.0 MeV |
1 |
Radiation belts |
Protons 100 MeV |
1-2 |
Cosmic rays, inner-radiation belts, and solar cosmic rays |
Neutrons 0.05 ev (thermal) |
2.8 |
Nuclear interactions in the sun |
Alpha Particles 5.0 MeV |
15 |
Cosmic rays |
Danger
Exposure to dangerous levels of radiation causes radiation sickness and cancer. Any exposure to radiation, no matter how slight, poses some risk. Small dose - small risk of cancer. High dose - high risk of cancer.
Nevertheless, there are defined legal limits for exposure during work for several professional activities, such as for X-ray assistants, airplane personnel, etc.
Effect on material
Radiation can change the properties of plastics and metals, making them brittle after a period of time.
Protection
Houses should be equipped with a shielding, thick enough to reduce the radiation to a level equal to Earth, that is, almost zero. Best protection may be achieved with houses built in natural caves or set into cliffs or hillsides.
Space suits must be designed with radiation in mind. The suit should provide adequate shielding for the occupant. It may be necessary to design suits with several grades of protection. Suits designed for short-term use can carry lighter shielding which would reduce weight and improve maneuverability.
During severe radiation events, such as solar flares, surface settlements may use storm shelters with heavier than normal shielding.
Open issues
- How much higher is the UV and cosmic radiation?
- What is the required thickness of a regolith or water layer upon a house for radiation shielding?
- What are the legal limits for radiation exposure for some professional activities?
- Does regolith emit an own portion of radiation, some kind of secondary radiation due to the long exposure to cosmic and solar radiation?