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Apollo 17 lunar surface cosmic ray experiment - Measurement of heavy solar wind particles (1974)

Zinner, E. ; Borg, J. ; Walker, R. M. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: During the Apollo 17 mission a series of metal foils and nuclear track detectors were exposed both in the sun and in the shade on the surface of the moon. Here we give the analysis of the mica detectors which were used to measure the flux of solar wind particles of Fe-group and heavier elements. These particles register as shallow pits after etching in hydrofluoric acid. Calibration experiments were performed to determine the registration properties of different ions and to simulate the lunar environment. We obtain an Fe-group flux of 39,000 per sec per sq cm, which together with the H flux measured on IMP-7 gives an Fe/H ratio of 0.000041. For elements with Z exceeding 45 we can set only an upper limit on the abundance, ruling out an overabundance of extremely heavy elements relative to iron by a factor of 4.

Keywords: SOLAR PHYSICS

Type: Lunar Science Conference; Mar 18, 1974 - Mar 22, 1974; Houston, TX

Format: text

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'On-line' analyses of simulated solar wind implantations of terrestrial analogs of lunar materials (1986)

Blanford, G. E. ; Monart, B. ; Moeller, W. ; [et al.]

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Publication Date: 2019-07-12

Description: In connection with the establishment of a lunar base, it would be necessary to provide water, and the feasibility to obtain water from solar wind (SW) implanted lunar soils has been considered. In this context, a project involving the examination of materials under conditions of simulated SW irradiation has been initiated. A description is presented of initial results on oligoclase, ilmenite, and simulated lunar glass (SLG). Attention is given to the reaction chamber, the target materials, the saturation concentrations, aspects of water release, depth profiles, thermal release, effects from helium-3 preimplants, mechanisms of possible water release related to direct emission and thermal release, and lunar soil components enriched in trapped SW hydrogen. It is found that ilmenite stores about twice as much deuterium as the other target materials. However, it is unknown whether the small enrichment factor will be sufficient to make the material a potential source of lunar water.

Keywords: ASTRONAUTICS (GENERAL)

Type: Journal of Geophysical Research (ISSN 0148-0227); 91; D467-D47

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