Scan of specimen ummz:mammals:165569 (Eptesicus fuscus FUSCUS) - Skull. Raw Dataset includes 2401 TIF images (each 1380 x 1463 x 1 voxel at 0.01761623 mm resolution, derived from 2401 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:165569 (Eptesicus fuscus FUSCUS) - Skull. Reconstructed Dataset includes 1756 TIF images (each 1380 x 1463 x 1 voxel at 0.017616 mm resolution, derived from 2401 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:165569 (Eptesicus fuscus FUSCUS) - WholeBody. Raw Dataset includes 3141 TIF images (each 844 x 1193 x 1 voxel at 0.03643175 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:165569 (Eptesicus fuscus FUSCUS) - WholeBody. Reconstructed Dataset includes 2000 TIF images (each 844 x 1193 x 1 voxel at 0.036432 mm resolution, derived from 3141 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:174732 (Microgale talazaci) - WholeBody. Raw Dataset includes 1601 TIF images (each 648 x 977 x 1 voxel at 0.05492299 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:174732 (Microgale talazaci) - WholeBody. Reconstructed Dataset includes 2000 TIF images (each 648 x 977 x 1 voxel at 0.054923 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:168143 (Octodon degus) - WholeBody. Raw Dataset includes 1601 TIF images (each 1137 x 2000 x 1 voxel at 0.02689398 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:168143 (Octodon degus) - WholeBody. Reconstructed Dataset includes 1208 TIF images (each 1137 x 2000 x 1 voxel at 0.026894 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:168158 (Setonix brachyurus) - WholeBody. Raw Dataset includes 1601 TIF images (each 998 x 1824 x 1 voxel at 0.04686896 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:168158 (Setonix brachyurus) - WholeBody. Reconstructed Dataset includes 945 TIF images (each 998 x 1824 x 1 voxel at 0.046869 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:163615 (Megaderma spasma SPASMA) - WholeBody. Raw Dataset includes 1601 TIF images (each 682 x 965 x 1 voxel at 0.04711877 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:163615 (Megaderma spasma SPASMA) - WholeBody. Reconstructed Dataset includes 1945 TIF images (each 682 x 965 x 1 voxel at 0.047119 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:157599 (Rattus rattus) - WholeBody. Raw Dataset includes 1601 TIF images (each 580 x 971 x 1 voxel at 0.08124778 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:157599 (Rattus rattus) - WholeBody. Reconstructed Dataset includes 1946 TIF images (each 580 x 971 x 1 voxel at 0.081248 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:157545 (Sorex cinereus cinereus) - WholeBody. Raw Dataset includes 1601 TIF images (each 1130 x 900 x 1 voxel at 0.03467086 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:157545 (Sorex cinereus cinereus) - WholeBody. Reconstructed Dataset includes 1841 TIF images (each 1130 x 900 x 1 voxel at 0.034671 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
Earth’s upper atmosphere above 500 km altitude constantly loses charged particles to outer space in a process called ionospheric outflow. This outflow is important for the dynamics of the near-Earth space environment (“space weather”) yet is poorly understood on a global scale. A mission is needed to observe the global patterns of ionospheric outflow and its relation to space weather driving conditions. The science objectives of such a mission could include not only the reconstruction of global outflow patterns but also the relation of these patterns to geomagnetic activity and the spatial and temporal nature of outflow composition. A study is presented to show that four well-placed spacecraft would be sufficient for reasonable outflow reconstructions.
Liemohn, M. W., Jörg-Micha Jahn, Raluca Ilie, Natalia Y. Ganushkina, Daniel T. Welling, Heather Elliott, Meghan Burleigh, Kaitlin Doublestein, Stephanie Colon-Rodriguez, Pauline Dredger, & Philip Valek (2024). Reconstruction analysis of global ionospheric outflow patterns. Journal of Geophysical Research Space Physics, 129, e2023JA032238. https://doi/org/10.1029/2024JA032238
Scan of specimen ummz:mammals:85387 (Phloeomys cumingi) - Skull. Raw Dataset includes 1601 TIF images (each 1705 x 1942 x 1 voxel at 0.05012207 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:85387 (Phloeomys cumingi) - Skull. Reconstructed Dataset includes 689 TIF images (each 1705 x 1942 x 1 voxel at 0.050122 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.