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@ivojuri.bsky.social
@ivojuri.bsky.social
@ivojuri.bsky.social
1 year ago
Fig. 1 | The lunar surface chemistry maps of six major oxides by including the Chang’e-5 samples. a–c shows the maps of TiO2, FeO, and Al2O3 abundances respectively calculated from the deep learning-based inversion method. - TiO₂ (Titanium Dioxide): 1.2% - FeO (Iron Oxide): 8.94% - Al₂O₃ (Aluminum Oxide): 19.9%

Fig. 1 | The lunar surface chemistry maps of six major oxides by including the Chang’e-5 samples. a–c shows the maps of TiO2, FeO, and Al2O3 abundances respectively calculated from the deep learning-based inversion method. - TiO₂ (Titanium Dioxide): 1.2% - FeO (Iron Oxide): 8.94% - Al₂O₃ (Aluminum Oxide): 19.9%

d, e and f show the maps of MgO, CaO and SiO2 abundances respectively calculated from the deep learning-based inversion method. - MgO (Magnesium Oxide): 12.62% - CaO (Calcium Oxide): 9.23% - SiO₂ (Silicon Dioxide): 45.05%

d, e and f show the maps of MgO, CaO and SiO2 abundances respectively calculated from the deep learning-based inversion method. - MgO (Magnesium Oxide): 12.62% - CaO (Calcium Oxide): 9.23% - SiO₂ (Silicon Dioxide): 45.05%

https://www.nature.com/articles/s41467-023-43358-0#Tab1

https://www.nature.com/articles/s41467-023-43358-0#Tab1

Exploring the Moon’s surface in greater detail 🌕🔬! New research uses advanced deep learning models to analyze lunar soil samples and map the chemical composition of some areas of the Moon.🌍🚀

#Science #SpaceExploration #LunarResearch #MappingLunarSurfaceChemistry #DeepLearning

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