Browsing by Author "Dundar, M. M."
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Item Challenges in the Search for Perchlorate and Other Hydrated Minerals With 2.1-μm Absorptions on Mars(American Geophysical Union, 2018) Leask, E. K.; Ehlmann, B. L.; Dundar, M. M.; Murchie, S. L.; Seelos, F. P.; Computer and Information sciences, School of ScienceA previously unidentified artifact has been found in Compact Reconnaissance Imaging Spectrometer for Mars targeted I/F data. It exists in a small fraction (<0.05%) of pixels within 90% of images investigated and occurs in regions of high spectral/spatial variance. This artifact mimics real mineral absorptions in width and depth and occurs most often at 1.9 and 2.1 μm, thus interfering in the search for some mineral phases, including alunite, kieserite, serpentine, and perchlorate. A filtering step in the data processing pipeline, between radiance and I/F versions of the data, convolves narrow artifacts (“spikes”) with real atmospheric absorptions in these wavelength regions to create spurious absorption-like features. The majority of previous orbital detections of alunite, kieserite, and serpentine we investigated can be confirmed using radiance and raw data, but few to none of the perchlorate detections reported in published literature remain robust over the 1.0- to 2.65-μm wavelength range.Item CRISM Detections of Hydrated Silica in Mt Sharp, Gale Crater(NASA, 2020-03) Fox, V. K.; Dundar, M. M.; Ehlmann, B. L.; Computer and Information Science, School of ScienceMachine learning-enabled detections of hydrated silica in the Mt Sharp stratigraphic succession place constraints on alteration pathways in Gale Crater.Item Evidence for Chemically Distinct Waters Forming Sulphates and Chlorides in Terra Sirenum, Mars(USRA, 2019) Leask, E. K.; Ehlmann, B. L.; Dundar, M. M.; Computer and Information Science, School of Science