P. J. Wasilewski scite author profile

The Mars Global Surveyor spacecraft, in a highly elliptical polar orbit, obtained vector magnetic field measurements above the surface of Mars (altitudes >100 kilometers). Crustal magnetization, mainly confined to the most ancient, heavily cratered martian highlands, is frequently organized in east-west-trending linear features, the longest extending over 2000 kilometers. Crustal remanent magnetization exceeds that of terrestrial crust by more than an order of magnitude. Groups of quasi-parallel linear features of alternating magnetic polarity were found. They are reminiscent of similar magnetic features associated with sea floor spreading and crustal genesis on Earth but with a much larger spatial scale. They may be a relic of an era of plate tectonics on Mars.

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Global Distribution of Crustal Magnetization Discovered by the Mars Global Surveyor MAG/ER Experiment

Acuña

Connerney

Ness³

et al. 1999

Science

952

261

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Vector magnetic field observations of the martian crust were acquired by the Mars Global Surveyor (MGS) magnetic field experiment/electron reflectometer (MAG/ER) during the aerobraking and science phasing orbits, at altitudes between approximately 100 and 200 kilometers. Magnetic field sources of multiple scales, strength, and geometry were observed. There is a correlation between the location of the sources and the ancient cratered terrain of the martian highlands. The absence of crustal magnetism near large impact basins such as Hellas and Argyre implies cessation of internal dynamo action during the early Naochian epoch ( approximately 4 billion years ago). Sources with equivalent magnetic moments as large as 1.3 x 10(17) ampere-meter2 in the Terra Sirenum region contribute to the development of an asymmetrical, time-variable obstacle to solar wind flow around Mars.

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Magnetic field of Mars: Summary of results from the aerobraking and mapping orbits

Acuña¹,

Connerney²,

Wasilewski³

et al. 2001

J. Geophys. Res.

319

239

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The global magnetic field of Mars and implications for crustal evolution

Connerney

Acuña

Wasilewski

et al. 2001

Geophysical Research Letters

264

215

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Magnetic Field and Plasma Observations at Mars: Initial Results of the Mars Global Surveyor Mission

Acuña

Connerney

Wasilewski

et al. 1998

Science

693

187

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The magnetometer and electron reflectometer investigation (MAG/ER) on the Mars Global Surveyor spacecraft has obtained magnetic field and plasma observations throughout the near-Mars environment, from beyond the influence of Mars to just above the surface (at an altitude of ∼100 kilometers). The solar wind interaction with Mars is in many ways similar to that at Venus and at an active comet, that is, primarily an ionospheric-atmospheric interaction. No significant planetary magnetic field of global scale has been detected to date (<2 × 10 21 Gauss–cubic centimeter), but here the discovery of multiple magnetic anomalies of small spatial scale in the crust of Mars is reported.

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P. J. Wasilewski

Magnetic Lineations in the Ancient Crust of Mars

Global Distribution of Crustal Magnetization Discovered by the Mars Global Surveyor MAG/ER Experiment

Magnetic field of Mars: Summary of results from the aerobraking and mapping orbits

The global magnetic field of Mars and implications for crustal evolution

Magnetic Field and Plasma Observations at Mars: Initial Results of the Mars Global Surveyor Mission

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