- Title
- Observational evidence for active dust storms on Titan at equinox
- Creators
- Sebastien Rodriguez - Institut de physique du globe de ParisStephane Le Mouelic - French National Centre for Scientific ResearchJason W Barnes - University of IdahoJasper F Kok - University of California, Los AngelesScot C Rafkin - Southwest Research InstituteRalph D Lorenz - Johns Hopkins University Applied Physics LaboratoryBenjamin Charnay - Délégation Paris 7Jani Radebaugh - Brigham Young UniversityClement Narteau - Institut de physique du globe de ParisThomas Cornet - European Space Astronomy CentreOlivier Bourgeois - French National Centre for Scientific ResearchAntoine Lucas - Institut de physique du globe de ParisPascal Rannou - University of Reims Champagne-ArdenneCaitlin Ann Griffith - University of ArizonaAthena Coustenis - Observatoire de ParisThomas Appere - Institut de Planétologie et d'Astrophysique de GrenobleMathieu Hirtzig - Délégation Paris 7Christophe Sotin - Jet Propulsion LaboratoryJason M Soderblom - Massachusetts Institute of TechnologyRobert Hamilton Brown - University of ArizonaJacob Bow - University of IdahoGraham Vixie - University of IdahoLuca Maltagliati - Institut de physique du globe de ParisSylvain CourrechRalf Jaumann - German Aerospace CenterKatrin Stephan - German Aerospace CenterKevin H Baines - University of Wisconsin–MadisonBonnie J Buratti - Jet Propulsion LaboratoryRoger N Clark - Planetary Science InstitutePhilip D Nicholson - Cornell University
- Publication Details
- Nature Geoscience, Vol.11, pp.727-732
- Identifiers
- 996631111401851
- Academic Unit
- Physics
- Language
- English
- Resource Type
- Journal article
Journal article
Observational evidence for active dust storms on Titan at equinox
Nature Geoscience, Vol.11, pp.727-732
2018
Metrics
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