Your search keyword '"Malaret, E"' showing total 5 results

1. Character and spatial distribution of OH/[H.sub.2]O on the surface of the moon Seen by [M.sup.3] on Chandrayaan-1

Author

Pieters, C.M., Goswami, J.N., Clark, R.N., Annadurai, M., Boardman, J., Buratti, B., Combe, J.-P., Dyar, M.D., Green, R., Head, J.W., Hibbitts, C., Hicks, M., Isaacson, P., Klima, R., Kramer, G., Kumar, S., Livo, E., Lundeen, S., Malaret, E., McCord, T., Mustard, J., Nettles, J., Petro, N., Runyon, C., Staid, M., Sunshine, J., Taylor, L.A., Tompkins, S., and Varanasi, P.

Subjects

Lunar mineralogy -- Research, Moon -- Properties, Absorption -- Observations, Hydroxides -- Distribution, Company distribution practices, Science and technology

Abstract

The search for water on the surface of the anhydrous Moon had remained an unfulfilled quest for 40 years. However, the Moon Mineralogy Mapper ([M.sup.3]) on Chandrayaan-1 has recently detected absorption features near 2.8 to 3.0 micrometers on the surface of the Moon. For silicate bodies, such features are typically attributed to hydroxyl- and/or water-bearing materials. On the Moon, the feature is seen as a widely distributed absorption that appears strongest at cooler high latitudes and at several fresh feldspathic craters. The general lack of correlation of this feature in sunlit [M.sup.3] data with neutron spectrometer hydrogen abundance data suggests that the formation and retention of hydroxyl and water are ongoing surficial processes. Hydroxyl/water production processes may feed polar cold traps and make the lunar regolith a candidate source of volatiles for human exploration. 10.1126/science.1178658

Published

2009

2. The Clementine bistatic radar experiment

Author

Nozette, S., Lichtenberg, C.L., Spudis, P., Bonner, R., Ort, W., Malaret, E., Robinson, M., and Shoemaker, E.M.

Subjects

Clementine (Space probe) -- Observations, Observations, Research, Lunar surface -- Research, Lunar geology -- Research, Moon -- Surface

Abstract

The possibility of ice on the moon was suggested in 1961 (1). Volatiles degassed from the primitive moon or deposited on the lunar surface by cometary and asteroidal impacts might [...], During the Clementine 1 mission, a bistatic radar experiment measured the magnitude and polarization of the radar echo versus bistatic angle, β, for selected lunar areas. Observations of the lunar south pole yield a same-sense polarization enhancement around β = 0. Analysis shows that the observed enhancement is localized to the permanently shadowed regions of the lunar south pole. Radar observations of periodically solar-illuminated lunar surfaces, including the north pole, yielded no such enhancement. A probable explanation for these differences is the presence of low-loss volume scatterers, such as water ice, in the permanently shadowed region at the south pole.

Published

1996

3. The Clementine mission to the moon: scientific overview

Author

Nozette, Stewart, Rustan, P., Pleasance, L.P., Horan, D.M., Regeon, P., Shoemaker, E.M., Spudis, P.D., Acton, C.H., Baker, D.N., Blamont, J.E., Buratti, B.J., Corson, M.P., Davies, M.E., Duxbury, T.C., Eliason, E.M., Jakosky, B.M., Kordas, J.F., Lewis, I.T., Lichtenberg, C.L., Lucey, P.G., Malaret, E., Massie, M.A., Resnick, J.H., Rollins, C.J., Park, H.S., McEwen, A.S., Priest, R.E., Pieters, C.M., Reisse, P.A., Robinson, M.S., Simpson, R.A., Smith, D.E., Sorenson, T.C., Vorder Breugge, R.W., and Zuber, M.T.

Subjects

Clementine (Space probe) -- Observations, Observations, Research, Natural history, Moon -- Natural history -- Research, Lunar flights -- Research, Space flight to the moon -- Research

Abstract

In early 1992, after a 4-month effort by the National Aeronautics and Space Administration (NASA), the U.S. Department of Defense, and industry, it was concluded that a mission to a [...], In the course of 71 days in lunar orbit, from 19 February to 3 May 1994, the Clementine spacecraft acquired just under two million digital images of the moon at visible and infrared wavelengths. These data are enabling the global mapping of the rock types of the lunar crust and the first detailed investigation of the geology of the lunar polar regions and the lunar far side. In addition, laser-ranging measurements provided the first view of the global topographic figure of the moon. The topography of many ancient impact basins has been measured, and a global map of the thickness of the lunar crust has been derived from the topography and gravity.

Published

1994

4. Abundance and distribution of iron on the moon.

Author

Lucey PG, Taylor GJ, and Malaret E

Abstract

The abundance and distribution of iron on the moon is derived from a near-global data set from Clementine. The determined iron content of the lunar highlands crust ( approximately 3 percent iron by weight) supports the hypothesis that much of the lunar crust was derived from a magma ocean. The iron content of lower crustal material exposed by the South Pole-Aitken impact basin on the lunar farside is higher ( approximately 7 to 8 percent by weight) and consistent with a basaltic composition. This composition supports earlier evidence that the lunar crust becomes more mafic with depth. The data also suggest that the bulk composition of the moon differs from that of the Earth's mantle. This difference excludes models for lunar origin that require the Earth and moon to have the same compositions, such as fission and coaccretion, and favors giant impact and capture.

Published

1995

5. Topographic-compositional units on the moon and the early evolution of the lunar crust.

Author

Lucey PG, Spudis PD, Zuber M, Smith D, and Malaret E

Abstract

The distribution of elevations on the moon determined by Clementine deviates strongly from a normal distribution, suggesting that several geologic processes have influenced the topography. The hypsograms for the near side and far side of the moon are distinctly different, and these differences correlate with differences in composition as determined by Apollo orbital geochemistry, Clementine global multispectral imaging, and ground-based spectroscopy. The hypsograms and compositional data indicate the presence of at least five compositional-altimetric units. The lack of fill of the South Pole-Aitken Basin by mare basalts suggests poor production efficiency of mare basalt in the mantle of this area of the moon.

Published

1994