Post-impact cryo-hydrologic formation of small mounds and hills in Ceres’s Occator crater
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Title
Post-impact cryo-hydrologic formation of small mounds and hills in Ceres’s Occator crater
Authors
Keywords
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Journal
Nature Geoscience
Volume -, Issue -, Pages -
Publisher
Springer Science and Business Media LLC
Online
2020-08-11
DOI
10.1038/s41561-020-0581-6
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Related references
Note: Only part of the references are listed.- Impact heat driven volatile redistribution at Occator crater on Ceres as a comparative planetary process
- (2020) P. Schenk et al. Nature Communications
- The varied sources of faculae-forming brines in Ceres’ Occator crater emplaced via hydrothermal brine effusion
- (2020) J. E. C. Scully et al. Nature Communications
- Recent cryovolcanic activity at Occator crater on Ceres
- (2020) A. Nathues et al. Nature Astronomy
- Impact-driven mobilization of deep crustal brines on dwarf planet Ceres
- (2020) C. A. Raymond et al. Nature Astronomy
- Ceres’ Occator crater and its faculae explored through geologic mapping
- (2018) Jennifer E.C. Scully et al. ICARUS
- The Central Pit and Dome at Cerealia Facula Bright Deposit and Floor Deposits in Occator Crater, Ceres: Morphology, Comparisons and Formation
- (2018) Paul Schenk et al. ICARUS
- A Possible Brine Reservoir Beneath Occator Crater: Thermal and Compositional Evolution and Formation of the Cerealia dome and Vinalia Faculae
- (2018) Lynnae C. Quick et al. ICARUS
- Post-Impact Thermal Structure and Cooling Timescales of Occator Crater on Asteroid 1 Ceres
- (2018) Timothy J. Bowling et al. ICARUS
- Thermal Stability of Water Ice in Ceres' Craters: The Case of Juling Crater
- (2018) M. Formisano et al. JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS
- Cryovolcanic rates on Ceres revealed by topography
- (2018) Michael M. Sori et al. Nature Astronomy
- The various ages of Occator crater, Ceres: Results of a comprehensive synthesis approach
- (2018) A. Neesemann et al. ICARUS
- A Global Inventory of Ice‐Related Morphological Features on Dwarf Planet Ceres: Implications for the evolution and current state of the cryosphere
- (2018) H. G. Sizemore et al. JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS
- Structure and dynamics of surface uplift induced by incremental sill emplacement
- (2017) Craig Magee et al. GEOLOGY
- Exposed H 2 O-rich areas detected on Ceres with the dawn visible and infrared mapping spectrometer
- (2017) Jean-Philippe Combe et al. ICARUS
- Experiments on the evolution of laccolith morphology in plan-view
- (2017) Ryan M. Currier et al. JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH
- Conditions for Sublimating Water Ice to Supply Ceres' Exosphere
- (2017) M. E. Landis et al. JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS
- Predictions of depth-to-ice on asteroids based on an asynchronous model of temperature, impact stirring, and ice loss
- (2016) Norbert Schorghofer ICARUS
- Detection of local H 2 O exposed at the surface of Ceres
- (2016) Jean-Philippe Combe et al. SCIENCE
- Cryovolcanism on Ceres
- (2016) O. Ruesch et al. SCIENCE
- Extensive water ice within Ceres’ aqueously altered regolith: Evidence from nuclear spectroscopy
- (2016) T. H. Prettyman et al. SCIENCE
- The geomorphology of Ceres
- (2016) D. L. Buczkowski et al. SCIENCE
- Initiation and growth of martian ice lenses
- (2015) Hanna G. Sizemore et al. ICARUS
- Possible open-system (hydraulic) pingos in and around the Argyre impact region of Mars
- (2014) R.J. Soare et al. EARTH AND PLANETARY SCIENCE LETTERS
- Possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of Utopia Planitia, Mars
- (2012) R.J. Soare et al. ICARUS
- Active formation of ‘chaos terrain’ over shallow subsurface water on Europa
- (2011) B. E. Schmidt et al. NATURE
- An assessment of evidence for pingos on Mars using HiRISE
- (2009) Colin M. Dundas et al. ICARUS
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