Double Asteroid Redirection Test (DART) DART Shape (Digital Terrain) Model Bundle data_derived_dimorphos_model_v004 Collection - Contains version 4.0 of Dimorphos shape model produced using SPC data_derived_dimorphos_model_v003 Collection - Contains version 3.0 of Dimorphos shape model produced using SPC. data_derived_didymos_model_v003 Collection - Contains version 3.0 of Didymos shape model produced using SPC Document Shape Model collection - contains documentation pertaining to the Shape Model data collections This bundle was created by the DART SOC. This bundle is archived at the Small Bodies Node of the Planetary Data System. Questions about this bundle may be directed to Dany Waller or Olivier Barnouin: Dany.Waller@jhuapl.edu Olivier.Barnouin@jhuapl.edu Data Abstract ============= We provide digital terrain model models and ancillary derived data products of Didymos and Dimorphos. These data were produced with imaging collected during the DART impact with Dimorphos. This collection consists of digital terrain models, surface information (elevation relative to a geiod, slope, surface geopotential, surface gravity) and tilt maps. These products are accompanied with a definition of these asteroid's coordinate system, volume, and dart impact location. Data Set Overview ================= The shape of Didymos and Dimorphos is obtained using stereophotoclinometry (SPC; Gaskell et al. 2008) SPC combines stereo techniques with photoclinometry to derive the tilt of an asteroid’s surface. This shape modeling technique estimates surface tilts at each pixel of a given image by initially using stereo parallax, and a photometric function, to constrain a relationship between a surface’s tilt and observed albedo. With this relationship in hand, the tilts of a piece of asteroid surface imagined at multiple emission and incidence angles can be obtained via least-squares that best duplicates the input images. Once the surface tilts are obtained, the geometric height across each map can be determined by integrating over the tilts in a logical manner. These individual terrain maps (called “maplets”) of the surface can then be joined together to produce global and local digital terrain models. SPC processing includes the use of asteroid limb and terminator data to initially constrain the shape of an asteroid. From this model, and estimates of the mass of Didymos and Dimorphos, surface information critical to interpret the surface geology and tilt characteristics can be obtained (see Barnouin, O.S. et al. 2020). We provide both global and local products. The local product is centered on the DART impact site. The coordinate and other attributes for Didydmos and Dimorphos are captured in the "DART Coordinate System for Didymos and Dimorphos" documents. Users are encouraged to read the DART Shape Model SIS for additional information. References ========== Gaskell et al. 2008, Characterizing and navigating small bodies with imaging data. Meteoritics and Planetary Science 43, 1049–1061. https://doi.org/10.1111/j.1945-5100.2008.tb00692.x Barnouin, O.S. et al. 2020 Digital terrain mapping by the OSIRIS-REx mission. Planetary and Space Science 180, 104764. https://doi.org/10.1016/j.pss.2019.104764 Barnouin, O.S. et al. 2023, DART Coordinate System for Didymos, PDS document. https://doi.org/10.26007/30x0-fv64 Barnouin, O.S. et al. 2023, DART Coordinate System for Dimorphos, PDS Document. https://doi.org/10.26007/7312-sc96 Barnouin, O.S. et al. 2023, DART Shape Model Collection SIS, PDS document. (within https://doi.org/10.26007/rvvf-pn04)