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A LiF silicon sandwich counter to measure water content of planetary surfaces (1997)

Squyres, Steven W. ; Reedy, Robert ; Drake, D. M. ; [et al.]

In: CASI

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Publication Date: 2019-08-15

Description: The neutron counter proposed here has a long history and was commercially available in a somewhat different form. This counter would be suitable for a rover or lander since it requires a rather long measuring time for each placement. It consists of two silicon wafer charged-particle counters with a layer of Li-6F deposited on the inner surface of one. The neutron detecting reaction is Li-6(n,H-3)He-4 in which the alpha particle and the triton are emitted from the Li-6 deposit back to back. If one of the detectors sees the alpha particle, the other will see the triton. This allows one to use a coincidence technique that virtually eliminates all background. The signals from each detector can be added together so that the total energy of the reaction, Q=4.6 MeV and the kinetic energy of the neutron, can be recorded.

Keywords: Lunar and Planetary Exploration

Type: In Situ Resource Utilization (ISRU II) Technical Interchange Meeting; 7; NASA/CR-97-207784

Format: text

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Atmospheric effects on the mapping of Martian thermal inertia and thermally derived albedo (1995)

Haberle, Robert M. ; Jakosky, Bruce M. ; Hayashi, Joan N.

In: CASI

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Publication Date: 2019-08-15

Description: We examine the effects of a dusty C02 atmosphere on the thermal inertia and thermally derived albedo of Mars and we present a new map of thermal inertias. This new map was produced using a coupled surface atmosphere (CSA) model, dust opacities from Viking infrared thermal mapper (IRTM) data, and C02 columns based on topography. The CSA model thermal inertias are smaller than the 2% model thermal inertias, with the difference largest at large thermal inertia. Although the difference between the thermal inertias obtained with the two models is moderate for much of the region studied, it is largest in regions of either high dust opacity or of topographic lows, including the Viking Lander 1 site and some geologically interesting regions. The CSA model thermally derived albedos do not accurately predict the IRTM measured albedos and are very similar to the thermally derived albedos obtained with models making the 2% assumption.

Keywords: Lunar and Planetary Exploration

Type: Paper-94JE02449 , MSATT; 100; E3; 5277-5284

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