O
Olivier S. Barnouin
Researcher at Johns Hopkins University Applied Physics Laboratory
Publications - 230
Citations - 7895
Olivier S. Barnouin is an academic researcher from Johns Hopkins University Applied Physics Laboratory. The author has contributed to research in topics: Asteroid & Impact crater. The author has an hindex of 40, co-authored 211 publications receiving 5364 citations. Previous affiliations of Olivier S. Barnouin include Johns Hopkins University.
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A high-resolution normal albedo map of asteroid (101955) Bennu
Dathon Golish,N. Shultz,Tammy L. Becker,Kris J. Becker,K. L. Edmundson,Daniella DellaGiustina,C. Drouet d'Aubigny,Carina Bennett,Bashar Rizk,Olivier S. Barnouin,Michael Daly,J. A. Seabrook,Lydia C. Philpott,M. Al Asad,Catherine L. Johnson,Catherine L. Johnson,Jian-Yang Li,R. L. Ballouz,Erica Jawin,Dante S. Lauretta +19 more
TL;DR: A near-global normal albedo map of asteroid (101955) Bennu, created using images from the PolyCam imager onboard the Origins, Spectral Interpretation, Resource Identification, and Security-Regolith Explorer (OSIRIS-REx) spacecraft is presented in this paper.
A Tool for the Visualization of Small Body Data
E. G. Kahn,Olivier S. Barnouin,Debra Buczkowski,Carolyn M. Ernst,Noam R. Izenberg,S. L. Murchie,Louise M. Prockter +6 more
TL;DR: The overall design of the SBMT as well as the datasets that are currently supported are described, including shape models of the asteroid Eros and three other small bodies that are supported: Deimos, Itokawa, and Vesta.
Journal ArticleDOI
Successful kinetic impact into an asteroid for planetary defence
R. T. Daly,Carolyn M. Ernst,Olivier S. Barnouin,Nancy L. Chabot,Andrew S. Rivkin,Andrew F. Cheng,E. Y. Adams,H. F. Agrusa,E. Abel,Amy L Alford,Erik Asphaug,Justin A. Atchison,Andrew Badger,Paul Baki,Ronald-Louis Ballouz,Dmitriy Bekker,Julie Bellerose,S. Bhaskaran,Bonnie J. Buratti,Saverio Cambioni,Michelle H. Chen,Steven R. Chesley,George Chiu,Gareth S. Collins,Matthew Cox,Mallory E. DeCoster,Peter S Ericksen,R. C. Espiritu,Alan S. Faber,Tony L. Farnham,Fabio Ferrari,Z. Fletcher,Robert Gaskell,Dawn Graninger,Musad Haque,Patricia Harrington-Duff,Sarah Hefter,I. Herreros,Masatoshi Hirabayashi,Philip M. Huang,Syau-Yun Hsieh,Seth A. Jacobson,Steve N. Jenkins,Mark Jensenius,Jeremy John,Martin Jutzi,Tomas Kohout,T. Krueger,Frank Laipert,Norberto R. Lopez,Robert Luther,Alice Lucchetti,D. M. Mages,Simone Marchi,Maria McQuaide,Patrick Michel,Nicholas Moskovitz,Ian W Murphy,Naomi Murdoch,Shantanu P. Naidu,H. Nair,Michael C. Nolan,Jens Ormö,Maurizio Pajola,Eric Palmer,James Peachey,Petr Pravec,S.D. Raducan,K.T. Ramesh,Joshua Ramirez,Edward L. Reynolds,Joshua E Richman,Colas Q Robin,Luis M Rodriguez,Lew Roufberg,Brian Rush,Carolyn A. Sawyer,Daniel J. Scheeres,P. Scheirich,Stephen M. Schwartz,Matthew P Shannon,B. Shapiro,Caitlin E Shearer,Evan Smith,R. J. Steele,Jordan K. Steckloff,Angela Stickle,Jessica M. Sunshine,Emil Superfin,Zahi Tarzi,Cristina A. Thomas,Justin Thomas,Josep M. Trigo-Rodríguez,Björn Tropf,Andrew T. Vaughan,D. Velez,C. D. Waller,Daniel S. Wilson,K. A. Wortman,Yun Zhang +99 more
TL;DR: The Double Asteroid Redirection Test (DART) mission is a full-scale test of kinetic impact technology as discussed by the authors , where the DART spacecraft's autonomous kinetic impact into Dimorphos and reconstructs the impact event, including the timeline leading to impact, the location and nature of DART impact site, and the size and shape of Dimomorphos.
Experimental Results Investigating Impact Velocity Effects on Crater Growth and the Transient Depth-to-Diameter Ratio
Olivier S. Barnouin,Carolyn M. Ernst,J. T. Heinick,M. J. Cintala,David A. Crawford,Takafumi Matsui +5 more
TL;DR: In this article, the authors performed vertical hypervelocity impacts at the NASA Ames Vertical Gun Range to evaluate if increasing impact velocity, which alters the coupling time between the projectile and target, might change the rates of crater growth and transient crater shape.
Journal ArticleDOI
Internal rubble properties of asteroid (101955) Bennu
Pasquale Tricarico,Daniel J. Scheeres,A. S. French,Jay W. McMahon,D. N. Brack,J. M. Leonard,Peter G. Antreasian,S. R. Chesley,Davide Farnocchia,Y. Takahashi,Erwan Mazarico,David D. Rowlands,D. E. Highsmith,K. Getzandanner,Michael C. Moreau,Catherine L. Johnson,Catherine L. Johnson,Lydia C. Philpott,E. B. Bierhaus,Kevin J. Walsh,Olivier S. Barnouin,Eric Palmer,J. R. Weirich,Robert Gaskell,M. G. Daly,J. A. Seabrook,Michael C. Nolan,Dante S. Lauretta +27 more
TL;DR: In this paper, the authors combine gravity inversion methods with a statistical rubble-pile model to determine the density and size-frequency distribution (SFD) index of the rubble that constitutes Bennu.