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Lunar 100 virtual moon atlas11/11/2023 ![]() Users can now explore the variability of data sets over small regions by dynamically adjusting the scale bars, compare datasets with similar information (slope from the SLDEM vs. Screenshot of Lunar QuickMap expressions layer panel showing available operators and data options. Combine these layers with the added ability to create custom layers from over 20 datasets using algebraic expressions (Figure 3), and these new updates transform QuickMap into a powerful platform for data visualization and analysis by giving users unprecedented access to the geophysical data.įigure 3. With dynamic layers, users may now stretch layer data and mask data outside a desired range using over 40 dynamic layers. Dynamic layers is one of these exciting features. The new layers available in Lunar QuickMap is almost as exciting as the new improvements to support increased layer customization. These should be useful resources for anyone studying features related to these anomalies, such as lunar swirls.įigure 2. Screenshot of Lunar QuickMap Kaguya/Lunar Prospector Magnetic Anomaly dynamic layer with stretch and mask options. New LOLA Sun and Earth visibility layers are also now available for the Orthographic (South Pole) and Orthographic (North Pole) projections. With new missions to land at the lunar poles being planned, these layers allow planning future mission communications with Earth (Average Earth Visibility) and solar availability for a given area (Average Sun Visibility), which helps plan for charging solar-powered equipment. The Sun visibility also helps to understand the thermal environment at lander scales for volatile retention and thermal breakdown effects.Ī combination of Lunar Prospector and Kaguya magnetic anomaly maps at the surface and at 30 km are also now available (Figure 2). These Lunar Prospector/Kaguya Magnetic anomaly maps are currently the most complete and highest resolution magnetic anomaly maps for the Moon. ![]() It unifies all the previous Wilhelms geologic maps that were previously on QuickMap, ensuring units match up and are consistent across the entire Moon. In addition, various contacts and linear features will now be displayed and contact labels may be displayed as an overlay on the map (Figure 1).įigure 1. A screenshot of Lunar QuickMap displaying the new Unified Geologic Map and label layers. The new Unified Geologic Map and corresponding labels layers from the USGS Astrogeology Science Center released earlier this year is another amazing addition to Lunar QuickMap. This new geologic map allows the comparison of geologic units across the Moon with unified unit descriptions and ages for all areas. Many new layers have been added for instruments like Lunar Orbiter Laser Altimeter (LOLA), Gravity Recovery and Interior Laboratory (GRAIL), Kaguya SELenological and ENgineering Explorer (SELENE), and Lunar Prospector since 2019, as well as new and updated virtual layers, overlays, and footprints. In addition to the increasing number of LROC NAC and WAC images and RDR footprints available to the Lunar QuickMap after each LROC PDS release, a large number of incremental updates to instrument and non-instrument layers are also included as data becomes available. The updates provide improved ease and accuracy when searching and analyzing lunar data and a more enjoyable experience for anyone looking to explore the Moon. LROC is thrilled to announce the Lunar QuickMap spring 2020 update release! The update, which was officially released earlier today, includes many exciting new layers and features, as well as enhancements to previously released layers and tools that you may be familiar with. Lunar QuickMap spring 2020 update delivers exciting new features and layers for enhanced user customization and data analysis.
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