P. Eng
University of Paris-Sud
6 Papers
12 Citations
P. Eng is an academic researcher from University of Paris-Sud. The author has contributed to research in topics: Imaging spectrometer & Comet. The author has an hindex of 4, co-authored 6 publications.
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Papers
SIMBIO-SYS: The spectrometer and imagers integrated observatory system for the BepiColombo planetary orbiter
Enrico Flamini,Fabrizio Capaccioni,Luigi Colangeli,Gabriele Cremonese,Alain Doressoundiram,Jean-Luc Josset,Yves Langevin,Stefano Debei,Maria Teresa Capria,M. C. De Sanctis,Lucia Marinangeli,Matteo Massironi,E. Mazzotta Epifani,Giampiero Naletto,Pasquale Palumbo,P. Eng,J.F. Roig,Alessandro Caporali,V. Da Deppo,Stéphane Erard,Costanzo Federico,Olivier Forni,Maria Sgavetti,Gianrico Filacchione,Lorenza Giacomini,G. Marra,Elena Martellato,Michele Zusi,M. Cosi,Carlo Bettanini,Luciano Calamai,Mirco Zaccariotto,Leonardo Tommasi,M. Dami,J. Ficai Veltroni,Francois Poulet,Yann Hello +36 more
TL;DR: An integrated suite of instruments, Spectrometer and Imagers for MPO BepiColombo-Integrated Observatory SYStem (SIMBIO-SYS), which includes a stereo imaging system (STC), a high-resolution imager (HRIC) and a visible-near-infrared imaging spectrometer (VIHI), has been selected for the ESA BepIColombo mission to Mercury as mentioned in this paper.
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67P/Churyumov-Gerasimenko surface properties as derived from CIVA panoramic images
J. P. Bibring,Yves Langevin,John Carter,P. Eng,Brigitte Gondet,Laurent Jorda,S. Le Mouélic,Stefano Mottola,C. Pilorget,Francois Poulet,Mathieu Vincendon +10 more
TL;DR: A fractured surface with complex structure and a variety of grain scales and albedos, possibly constituting pristine cometary material is revealed on comet 67P/Churyumov-Gerasimenko.
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The pre-flight calibration setup of the instrument SIMBIO-SYS onboard the mission BepiColombo
Francois Poulet,J. Rodriguez-Ferreira,Antoine Arondel,K. Dassas,P. Eng,P. Lami,Yves Langevin,Y. Longval,P. Pradel,M. Dami +9 more
TL;DR: In this article, a calibration device designed and implemented for the specific requirements of the SIMBIO-SYS instrument is presented, which mainly consists of a thermal vacuum chamber simulating the space environment, an optical bench collecting calibration sources and optical elements that simulate the conditions of Mercury observations, mechanical interfaces used for positioning the three channels inside the vacuum chamber, thermal interfaces to explore the operating temperatures, computer interfaces that allow to communicate with both the instrument and the calibration elements and synchronize the calibrations sequences with the status of the calibration device.
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