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Brett W. Denevi
Researcher at Johns Hopkins University Applied Physics Laboratory
Publications - 177
Citations - 6580
Brett W. Denevi is an academic researcher from Johns Hopkins University Applied Physics Laboratory. The author has contributed to research in topics: Mercury (element) & Impact crater. The author has an hindex of 43, co-authored 174 publications receiving 5555 citations. Previous affiliations of Brett W. Denevi include University of Hawaii & University of Hawaii at Manoa.
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Illumination conditions near Mercury's south pole
TL;DR: The MESSENGER mission is undertaking a dedicated imaging campaign to repeatedly observe the region near Mercury's south pole, with the goal of generating an illumination map as discussed by the authors, which will identify areas that are in permanent darkness for comparison with the locations of radar-bright features that have been suggested to host polar ice deposits.
Peak-ring basins on mercury: new messenger data and implications for basin
David M.H. Baker,J. W. Head,Louise M. Prockter,David T. Blewett,Brett W. Denevi,Carolyn M. Ernst,Thomas R. Watters +6 more
TL;DR: Baker et al. as discussed by the authors presented a survey of the state-of-the-art work in the field of Earth and Space Exploration, which includes the following: David Baker, J. H. Head, L. M. Prockter, D. Denevi, C. R. Ernst, T. W. Blewett, B. W W.
Dawn Maps the Surface Composition of Vesta
Thomas H. Prettyman,Eric Palmer,Robert C. Reedy,Mark V. Sykes,R. A. Yingst,Harry Y. McSween,M.C. Desanctis,F. Capaccinoni,M. T. Capria,Gianrico Filacchione,Gianfranco Magni,Eleonora Ammannito,F. Carraro,Angioletta Coradini,Sergio Fonte,Raffaella Noschese,Federico Tosi,David T. Blewett,Brett W. Denevi,David J. Lawrence,B. J. Buratti,Carol A. Raymond,J. P. Combe,T. B. McCord,Olivier Forni +24 more
TL;DR: In this article, a preliminary analysis of data acquired by Dawn's Framing Camera (FC) and the Visual and InfraRed Spectrometer (VIR) to map mineralogy and surface temperature, and to detect and quantify surficial OH is described.
Posted Content
Mercury Lander: Planetary Mission Concept Study for the 2023-2032 Decadal Survey
Carolyn M. Ernst,Sanae Kubota,Nancy L. Chabot,Rachel L. Klima,Gabe Rogers,Paul K. Byrne,Steven A. Hauck,Kathleen E. Vander Kaaden,Ronald J. Vervack,Sebastien Besse,David T. Blewett,Brett W. Denevi,Sander Goossens,S. Indyk,Noam R. Izenberg,Catherine L. Johnson,Lauren Jozwiak,Haje Korth,Ralph L. McNutt,Scott L. Murchie,Patrick N. Peplowski,Jim M. Raines,Elizabeth B. Rampe,Michelle S. Thompson +23 more
TL;DR: The New Frontiers-class, landing mission to Mercury has been evaluated in this paper, with an 11-instrument science payload delivered to a landing site within low-reflectance material, and addressing science goals and objectives encompassing geochemistry, geophysics, the Mercury space environment, and surface geology.