{"collections":[{"abstract":"<span class=\"intro\">New Horizons launched on Jan. 19, 2006</span> as part of NASA\u2019s New Frontiers Program. The spacecraft will help scientists back on Earth study the surface and atmosphere of the dwarf planet","geoform":["Collection"],"name":"new-horizon-global-mosaics","onlink":"https://astrogeology.usgs.gov/search/map/new-horizon-global-mosaics","pubdate":"2023-10-06","thumb":"https://astrogeology.usgs.gov/ckan/dataset/ee77b8eb-73c4-48c8-8c96-8692c9f03149/resource/0e9e8592-ab83-42d5-ad64-78d683f54f34/download/pluto-new-horizon-thumb.jpg","title":"New Horizon Global Mosaics"},{"abstract":"This page introduces the Kaguya Multiband Imager derived spectral and derived mineral maps by the Japan Aerospace Exploration Agency (JAXA) and the University of Hawaii. The mosaics were created from topographically-corrected MI","geoform":["Collection"],"name":"lunar-kaguya-multiband-imager-mosaics","onlink":"https://astrogeology.usgs.gov/search/map/lunar-kaguya-multiband-imager-mosaics","pubdate":"2015-01-01","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a53c9dbf-e03a-4d7a-8641-fc7af97a75c2/resource/a7e1a610-f8ef-4080-99e0-1b637d6c269f/download/moon-selene-kaguya-mi-thumb.jpg","title":"Lunar Kaguya Multiband Imager Mosaics"},{"abstract":"<span class=\"intro\">The following products were the first step of cartography planning</span> in support of the Cassini-Huygens mission to the Saturian System. Five of Saturans moons are linked below in a standard cartographic","geoform":["Collection"],"name":"saturn-voyager-airbrush-global-products","onlink":"https://astrogeology.usgs.gov/search/map/saturn-voyager-airbrush-global-products","pubdate":"2023-10-05","thumb":"https://astrogeology.usgs.gov/ckan/dataset/0872355e-41d2-48be-a3f3-474c571911e0/resource/fe0f7b0d-3a95-40f3-ad90-103ee20b2342/download/rhea-voyager-thumb.png","title":"Saturn Voyager Airbrush Global Products"},{"abstract":"<span class=\"intro\">Distributed here are control network data</span> for solar system bodies (planets, moons, and asteroids) other than the Earth. Each control network is essentially a set of photogrammetric or radargrammetric solution (input","geoform":["Collection"],"name":"control-networks","onlink":"https://astrogeology.usgs.gov/search/map/control-networks","pubdate":null,"thumb":"https://astrogeology.usgs.gov/ckan/dataset/c14e7072-decf-4997-925f-c7f305d2dd44/resource/f41d1d4e-daa4-484b-b6e2-439a93c3af58/download/control-networks-thumb.jpeg","title":"Control Networks"},{"abstract":"<span class=\"intro\">This gallery features several digitized photographs</span> from Apollo Mission explorations of the lunar surface. Anaglyph or 3D images require red-blue or red-green 3D glasses. The imagery and maps were prepared as","geoform":["Collection"],"name":"moon-apollo-anaglyph-3d-images","onlink":"https://astrogeology.usgs.gov/search/map/moon-apollo-anaglyph-3d-images","pubdate":"2023-10-20","thumb":"https://astrogeology.usgs.gov/ckan/dataset/8cd5663b-8ad1-44d4-9ef9-bac956de07a4/resource/2adf2528-8613-4545-a184-c8b31e08669f/download/apollo_stereo-thumb.jpg","title":"Moon Apollo Anaglyph 3D Images"},{"abstract":"<span class=\"intro\">This page features several maps showing routes</span> the astronauts took during extravehicular activities (EVAs). The imagery and maps were prepared as part of a project by a USGS team under funding","geoform":["Collection"],"name":"moon-apollo-traverse-maps","onlink":"https://astrogeology.usgs.gov/search/map/moon-apollo-traverse-maps","pubdate":"2023-10-16","thumb":"https://astrogeology.usgs.gov/ckan/dataset/b499160d-149f-4a79-8aee-e4a09d50fb80/resource/af3a32f8-eb16-48cc-8fd4-0b0881d440d5/download/apollo14_traverse-thumb.jpg","title":"Moon Apollo Traverse Maps"},{"abstract":"<span class=\"intro\">The USGS Astrogeology Science Center created some of the finest cartographic products</span> of Mars using data from Viking Oribter. Some of these products include global mosaics, north and south polar stereographic","geoform":["Collection"],"name":"mars-viking-global-products","onlink":"https://astrogeology.usgs.gov/search/map/mars-viking-global-products","pubdate":"2023-10-16","thumb":"https://astrogeology.usgs.gov/ckan/dataset/817ca072-b931-49d2-9056-c07e62c4038f/resource/9c90727e-5452-465d-9bb3-9d5a260b4607/download/mars-viking-thumb.jpg","title":"Mars Viking Global Products"},{"abstract":"<span class=\"intro\">The objective of this work is to assemble</span> and cartographically control Thermal Emission Imaging System (THEMIS; Christensen et al. 2004) daytime infrared (IR) and nighttime IR images. In a cartographically controlled","geoform":["Collection"],"name":"mars-themis-controlled-mosaics-and-final-smithed-kernels","onlink":"https://astrogeology.usgs.gov/search/map/mars-themis-controlled-mosaics-and-final-smithed-kernels ","pubdate":"2023-10-13","thumb":"https://astrogeology.usgs.gov/ckan/dataset/f79e28e3-a4f0-4eba-895a-f5ec96da7f99/resource/723b02d2-3e2d-4d18-94e8-999a68b21125/download/mars_tile_map_thumb.jpg","title":"Mars THEMIS Controlled Mosaics and Final Smithed Kernels"}],"facets":{"geoform":{"facet":{"Collection":1,"Digital Elevation Model":1,"Global Mosaic":2,"Image":1,"Nomenclature":1,"Raster Data":1,"Remote-sensing Data":2,"Tabular Data":1,"Topographic Map":1},"label":"Geo Format"},"mapprojn":{"facet":{"Simple Cylindrical":4},"label":"Map Projection"},"missikey":{"facet":{"New Horizons":4},"label":"Mission"}},"page":null,"results":[{"abstract":"Planetary nomenclature, like terrestrial nomenclature, is used to uniquely identify a feature on the surface of a planet or satellite so that the feature can be easily located, described, and discussed (Hargitai","geoform":["Nomenclature"],"name":"pluto_nomenclature","onlink":"https://astrogeology.usgs.gov/search/map/pluto_nomenclature","pubdate":"2017-09-12","thumb":"https://astrogeology.usgs.gov/ckan/dataset/22036d96-d59a-4495-9995-3f36f488366e/resource/732abf87-93fe-46b4-8e91-135e90d7310b/download/thumb.png","title":"Pluto Nomenclature"},{"abstract":"<span class=\"intro\">New Horizons launched on Jan. 19, 2006</span> as part of NASA\u2019s New Frontiers Program. The spacecraft will help scientists back on Earth study the surface and atmosphere of the dwarf planet","geoform":["Collection"],"name":"new-horizon-global-mosaics","onlink":"https://astrogeology.usgs.gov/search/map/new-horizon-global-mosaics","pubdate":"2023-10-06","thumb":"https://astrogeology.usgs.gov/ckan/dataset/ee77b8eb-73c4-48c8-8c96-8692c9f03149/resource/0e9e8592-ab83-42d5-ad64-78d683f54f34/download/pluto-new-horizon-thumb.jpg","title":"New Horizon Global Mosaics"},{"abstract":"<b>Product Information:</b> This detailed, high-quality global mosaic of Pluto was assembled from nearly all of the highest-resolution images obtained by the Long-Range Reconnaissance Imager (LORRI) and the Multispectral Visible Imaging Camera (MVIC)","geoform":["Digital Elevation Model","Global Mosaic","Raster Data","Remote-sensing Data","Topographic Map"],"name":"pluto_new_horizons_lorri_mvic_global_dem_300m","onlink":"https://astrogeology.usgs.gov/search/map/pluto_new_horizons_lorri_mvic_global_dem_300m","pubdate":"2017-07-14","thumb":"https://astrogeology.usgs.gov/ckan/dataset/f1332f71-8003-4a75-a330-acce6a3bf09f/resource/7c8a0396-6edd-4d83-be42-7c455ea09132/download/thumb.png","title":"Pluto New Horizons LORRI - MVIC Global DEM 300m"},{"abstract":"<b>Product Information:</b> This detailed, high-quality global mosaic of Pluto was assembled from nearly all of the highest-resolution images obtained by the Long-Range Reconnaissance Imager (LORRI) and the Multispectral Visible Imaging Camera (MVIC)","geoform":["Global Mosaic","Image","Remote-sensing Data"],"name":"pluto_new_horizons_lorri_mvic_global_mosaic_300m","onlink":"https://astrogeology.usgs.gov/search/map/pluto_new_horizons_lorri_mvic_global_mosaic_300m","pubdate":"2017-07-14","thumb":"https://astrogeology.usgs.gov/ckan/dataset/a5f1b7f4-9822-4697-a201-e23ef4bd3e16/resource/2803cdd8-7a30-4f00-9823-80647f6156f4/download/thumb.png","title":"Pluto New Horizons LORRI - MVIC Global Mosaic 300m"},{"abstract":"<b>Product Information:</b> These files represent a \"consensus crater database\" for Pluto, Charon, Nix, and Hydra. The database was constructed by several individuals who examined images independently and repeatedly. Images were from the","geoform":["Tabular Data"],"name":"pluto_system_craters_database_v1_robbins","onlink":"https://astrogeology.usgs.gov/search/map/pluto_system_craters_database_v1_robbins","pubdate":"2016-10-05","thumb":"https://astrogeology.usgs.gov/ckan/dataset/0d18e63c-f008-4526-9427-80c7f471f4c2/resource/640599e8-88c9-481b-b7a2-9084d2d472bd/download/craters_plutocharon_system_robbins-thumb.png","title":"Pluto System Craters Database v1 Robbins"}],"title":"Pluto","total":5}