M
Mark A. Wieczorek
Researcher at Centre national de la recherche scientifique
Publications - 254
Citations - 15372
Mark A. Wieczorek is an academic researcher from Centre national de la recherche scientifique. The author has contributed to research in topics: Crust & Mars Exploration Program. The author has an hindex of 60, co-authored 231 publications receiving 12173 citations. Previous affiliations of Mark A. Wieczorek include University of Washington & Institut de Physique du Globe de Paris.
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The forced precession of the Moon's inner core
Journal ArticleDOI
The Interior Structure of the Moon: What Does Geophysics Have to Say?
TL;DR: The Moon is a differentiated body possessing a crust, mantle, and core, and impact events with asteroids and comets have excavated materials to great depths within the crust.
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Testing the axial dipole hypothesis for the Moon by modeling the direction of crustal magnetization
TL;DR: In this article, the authors used a global magnetic field model of the Moon derived from Lunar Prospector and Kaguya magnetometer data to model the direction of crustal magnetization using a nonnegative least squares inversion.
Journal ArticleDOI
Fundamental relations of mineral specific magnetic carriers for paleointensity determination
Gunther Kletetschka,Gunther Kletetschka,Gunther Kletetschka,Mark A. Wieczorek,Mark A. Wieczorek +4 more
TL;DR: A fundamental linear relationship exists between the efficiency of thermoremanent magnetization measured at room temperature and the magnitude of the ambient magnetic field at the time of magnetization acquisition as mentioned in this paper.
InSight Constraints on the Global Character of the Martian Crust
Mark A. Wieczorek,A. Broquet,Scott M. McLennan,Attilio Rivoldini,Matthew P. Golombek,Daniele Antonangeli,Caroline Beghein,Domenico Giardini,Tamara Gudkova,Szilard Gyalay,Catherine L. Johnson,Rakshit Joshi,Do-Yeon Kim,Scott D. King,Brigitte Knapmeyer-Endrun,Philippe Lognonné,Chloé Michaut,Anna Mittelholz,Francis Nimmo,Lujendra Ojha,Marcus Panning,Ana-Catalina Plesa,Matthew A. Siegler,Suzanne E. Smrekar,Tilman Spohn,W. Bruce Banerdt +25 more
TL;DR: In this paper , the authors used gravity and topography data to construct global crustal thickness models that satisfy the seismic data and found that a substantial portion of the crust of Mars is a primary crust that formed during the initial differentiation of the planet.