P
Pascal Rosenblatt
Researcher at Royal Observatory of Belgium
Publications - 94
Citations - 1773
Pascal Rosenblatt is an academic researcher from Royal Observatory of Belgium. The author has contributed to research in topics: Mars Exploration Program & Martian. The author has an hindex of 23, co-authored 94 publications receiving 1524 citations. Previous affiliations of Pascal Rosenblatt include Université catholique de Louvain.
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Journal ArticleDOI
Science case for the Asteroid Impact Mission (AIM): A component of the Asteroid Impact & Deflection Assessment (AIDA) mission
Patrick Michel,Andrew F. Cheng,Michael Küppers,Petr Pravec,Jürgen Blum,Marco Delbo,Simon F. Green,Pascal Rosenblatt,Kleomenis Tsiganis,Jean-Baptiste Vincent,Jens Biele,Valérie Ciarletti,Alain Herique,Stephan Ulamec,Ian Carnelli,Andres Galvez,Lance A. M. Benner,Shantanu P. Naidu,Olivier S. Barnouin,Derek C. Richardson,Andrew S. Rivkin,P. Scheirich,Nicholas Moskovitz,Audrey Thirouin,Stephen R. Schwartz,A. Campo Bagatin,Yang Yu +26 more
TL;DR: This paper focuses on the science return of AIM, the current knowledge of its target from ground-based observations, and the instrumentation planned to get the necessary data.
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Accretion of Phobos and Deimos in an extended debris disc stirred by transient moons
Pascal Rosenblatt,Sébastien Charnoz,Kevin Dunseath,Mariko Terao-Dunseath,Antony Trinh,Ryuki Hyodo,Ryuki Hyodo,Hidenori Genda,Stéven Toupin,Stéven Toupin +9 more
TL;DR: In this article, it was shown that Phobos and Deimos accreted from the dispersed outer region of the debris disc that was stirred up by short-lived larger moons.
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The origin of the Martian moons revisited
TL;DR: The origin of the Martian moons, Phobos and Deimos, is still an open issue: either they are asteroids captured by Mars or they formed in situ from a circum-Mars debris disk.
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Precise mass determination and the nature of Phobos
Tom Andert,Pascal Rosenblatt,Martin Pätzold,Bernd Häusler,Véronique Dehant,G. L. Tyler,Jean-Charles Marty +6 more
TL;DR: In this article, independent results from two subgroups of the Mars Express Radio Science (MaRS) team who independently analyzed Mars Express (MEX) radio tracking data for the purpose of determining consistently the gravitational attraction of the moon Phobos on the MEX spacecraft, and hence the mass of Phobos.
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Assessment of the Martian gravity field at short wavelength with Mars Express
Mikael Beuthe,Pascal Rosenblatt,Véronique Dehant,Jean-Pierre Barriot,Martin Pätzold,Bernd Häusler,O. Karatekin,S. Le Maistre,T. Van Hoolst +8 more
TL;DR: In this paper, the authors show that the resolution of the most recent global gravity solution is excellent up to harmonic degree 73 and the amplitude at short wavelength is not biased toward zero by the power law regularization up to the same degree.