Your search keyword '"Patterson, Gerald Wesley"' showing total 4 results

1. Radar evidence of an accessible cave conduit on the Moon below the Mare Tranquillitatis pit

Author

Carrer, Leonardo, Pozzobon, Riccardo, Sauro, Francesco, Castelletti, Davide, Patterson, Gerald Wesley, and Bruzzone, Lorenzo

Published

2024

2. Inferring the Variability of Dielectric Constant on the Moon from Mini-RF S-Band Observations.

Author

Shukla, Shashwat, Patterson, Gerald Wesley, Maiti, Abhisek, Kumar, Shashi, and Dutton, Nicholas

Subjects

*LUNAR soil, *PERMITTIVITY, *LUNAR exploration, *DEEP learning, *RADIO frequency, *LUNAR craters

Abstract

The physical properties of lunar regolith are crucial for exploration planning, hazard assessment, and characterizing scientific targets at global and polar scales. The dielectric constant, a key property, offers insights into lunar material distribution within the regolith and serves as a proxy for identifying volatile-rich regoliths. Miniature radio frequency (Mini-RF) on the Lunar Reconnaissance Orbiter (LRO) provides a potential tool for mapping the lunar regolith's physical nature and assessing the lunar volatile repository. This study presents global and polar S-band Mini-RF dielectric signatures of the Moon, obtained through a novel deep learning inversion model applied to Mini-RF mosaics. We achieved good agreement between training and testing of the model, yielding a coefficient of determination (R2 value) of 0.97 and a mean squared error of 0.27 for the dielectric constant. Significant variability in the dielectric constant is observed globally, with high-Ti mare basalts exhibiting lower values than low-Ti highland materials. However, discernibility between the South Pole–Aitken (SPA) basin and highlands is not evident. Despite similar dielectric constants on average, notable spatial variations exist within the south and north polar regions, influenced by crater ejecta, permanently shadowed regions, and crater floors. These dielectric differences are attributed to extensive mantling of lunar materials, impact cratering processes, and ilmenite content. Using the east- and west-looking polar mosaics, we estimated an uncertainty (standard deviation) of 1.01 in the real part and 0.03 in the imaginary part of the dielectric constant due to look direction. Additionally, modeling highlights radar backscatter sensitivity to incidence angle and dielectric constant at the Mini-RF wavelength. The dielectric constant maps provide a new and unique perspective of lunar terrains that could play an important role in characterizing lunar resources in future targeted human and robotic exploration of the Moon. [ABSTRACT FROM AUTHOR]

Published

2024

3. Anomalous Dielectric Variability in the central peak of Tycho crater on the Moon: New insights from Mini-RF S-band Observations

Author

Shukla, Shashwat, primary and Patterson, Gerald Wesley, additional

Published

2021

4. Dike-Driven Hydrothermal Processes on Mars and Sill Emplacement on Europa

Author

Craft, Kathleen Liana, Geosciences, Lowell, Robert P., King, Scott D., Patterson, Gerald Wesley, Rimstidt, J. Donald, and Kraal, Erin R.

Subjects

Athabasca Valles, hydrothermal, fracture, ice, sill, Mars, dike, Europa

Abstract

Evidence of hydrothermal and tectonic activity is found throughout our solar system. Here I investigated hydrothermal and fracturing processes on three planetary bodies: Earth, Mars and Europa. For the first project, we set up a dike-driven hydrothermal system and calculated heat and water flow using boundary layer theory. Water flow rates and volumes were then compared to the requirements for surface feature formation. Results found that the water volumes produced were adequate to form Athabasca Valles, except the flow rates were low. Episodic flood releases could enable the higher flow rates if water was first collected in aquifers, possibly stored beneath ice. On the icy moon Europa, I modeled a proposed sill emplacement mechanism using a finite element code and found that water could flow up through an approximately 10 km thick ice shell without freezing. The analysis also found that shallow cracks in the ice combined with deep cracks cause a stress direction change that helps the fracture turn and propagate more horizontally. However, the sill lifetime is less than the time a study by Dombard et al. [2013] calculated to be necessary for the formation of flexure fractures along margins of double ridges. Replenishment processes will be explored in future work to help extend sill lifetime. The last investigation calculated dike induced permeability changes in the crust on Earth and Mars and related the changes to water and heat flow rates and water volumes. Comparisons were made to event plume heat and elevated fluid temperatures observed at mid-ocean ridges. Heat values determined by the models agreed well with the 10^14 to 10^17 J expected. For the Martian model, water flow rates and volumes were compared to formation requirements for the valley system Athabasca Valles. Results found that flow rates would be adequate in the high permeability damage zone adjacent to the dike. However, the lowered permeability outside the damage zone would restrict replenishment flow and could cause the need for water storage and periodic release between flood events as the volume within the damage zone is not adequate for the valley formation. Ph. D.

Published

2013