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Literature DB >> 35096494

A new model of the crustal magnetic field of Mars using MGS and MAVEN.

Benoit Langlais¹, Erwan Thébault¹, Aymeric Houliez², Michael E Purucker³, Robert J Lillis⁴.

Abstract

While devoid of an active magnetic field today, Mars possesses a remanent magnetic field which may reach several thousand nT locally. The exact origin, and the events which have shaped the crustal magnetization remain largely enigmatic. Three magnetic field datasets from two spacecraft collected over 13 cumulative years have sampled the martian magnetic field over a range of altitudes from 90 km up to 6000 km: a- Mars Global Surveyor (MGS) magnetometer (1997-2006); b- MGS Electron Reflectometer (1999-2006); c- MAVEN magnetometer (2014-today). In this paper we combine these complementary datasets for the first time to build a new model of the martian internal magnetic field. This new model improves upon previous ones in several aspects: comprehensive data coverage; refined data selection scheme; modified modeling scheme; discrete-to-continuous transformation of the model; increased model resolution. The new model has a spatial resolution of ~ 160 km at the surface, corresponding to spherical harmonic degree 134. It shows small scales and well defined features, which can now be associated with geological signatures.

Entities: Chemical

Year: 2019 PMID： 35096494 PMCID： PMC8793354 DOI： 10.1029/2018JE005854

Source DB: PubMed Journal: J Geophys Res Planets ISSN： 2169-9097 Impact factor: 3.755

8 in total

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Authors: Sabine Stanley; Linda Elkins-Tanton; Maria T Zuber; E Marc Parmentier
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Authors: Sylvain Bouley; David Baratoux; Isamu Matsuyama; Francois Forget; Antoine Séjourné; Martin Turbet; Francois Costard
Journal: Nature Date: 2016-03-02 Impact factor: 49.962

8. Planetary science. Low-altitude magnetic field measurements by MESSENGER reveal Mercury's ancient crustal field.

Authors: Catherine L Johnson; Roger J Phillips; Michael E Purucker; Brian J Anderson; Paul K Byrne; Brett W Denevi; Joshua M Feinberg; Steven A Hauck; James W Head; Haje Korth; Peter B James; Erwan Mazarico; Gregory A Neumann; Lydia C Philpott; Matthew A Siegler; Nikolai A Tsyganenko; Sean C Solomon
Journal: Science Date: 2015-05-07 Impact factor: 47.728