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Regolith Activation on the Lunar Surface and Its Ground Test Simulation
| AUTHOR | Nasa, National Aeronautics and Space Adm |
| PUBLISHER | Independently Published (01/19/2019) |
| PRODUCT TYPE | Paperback (Paperback) |
Description
Activation of the surfaces of lunar regolith particles can occur through interactions with solar electromagnetic radiation, solar and galactic particle radiation and micrometeoroid bombardment. An attempt has been made to quantify the relative importance of each of those effects. The effects of these activated surfaces may be to enhance the adhesion and toxicity of the particles. Also key to the importance of activation is the lifetimes of activated states in various environments which is controlled by their passivation rate as well as their activation rate. Although techniques exist to characterize the extent of activation of particles in biological system, it is important to be able to quantify the activation state on the lunar surface, in ground-test vacuum systems, and in habitat atmospheres as well. Gaier, James R. Glenn Research Center NASA/TM-2009-215648, 2009-01-2337, E-16960
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Product Format
Product Details
ISBN-13:
9781794289185
ISBN-10:
1794289186
Binding:
Paperback or Softback (Trade Paperback (Us))
Content Language:
English
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Page Count:
28
Carton Quantity:
146
Product Dimensions:
8.50 x 0.06 x 11.00 inches
Weight:
0.20 pound(s)
Country of Origin:
US
Subject Information
BISAC Categories
Science | Space Science - General
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publisher marketing
Activation of the surfaces of lunar regolith particles can occur through interactions with solar electromagnetic radiation, solar and galactic particle radiation and micrometeoroid bombardment. An attempt has been made to quantify the relative importance of each of those effects. The effects of these activated surfaces may be to enhance the adhesion and toxicity of the particles. Also key to the importance of activation is the lifetimes of activated states in various environments which is controlled by their passivation rate as well as their activation rate. Although techniques exist to characterize the extent of activation of particles in biological system, it is important to be able to quantify the activation state on the lunar surface, in ground-test vacuum systems, and in habitat atmospheres as well. Gaier, James R. Glenn Research Center NASA/TM-2009-215648, 2009-01-2337, E-16960
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