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The Influence of Interplanetary Magnetic Field Direction on Martian Crustal Magnetic Field Topology

Tristan Weber, D. A. Brain, Shaosui Xu, D. L. Mitchell, J. R. Espley, J. S. Halekas, C. Mazelle, R. J. Lillis, G. A. DiBraccio, B. M. Jakosky

2020Geophysical Research Letters41 citationsDOIOpen Access PDF

Abstract

Abstract Crustal magnetic fields influence a range of plasma processes at Mars, guiding the flow of energy from the solar wind into the planet's atmosphere at some locations while shielding the atmosphere at others. In this study we investigate how the topology of crustal fields varies with changes in the direction of the incoming interplanetary magnetic field (IMF). Using plasma measurements from Mars Atmosphere and Volatile Evolution (MAVEN) and Mars Global Surveyor (MGS), we identify magnetic topology throughout the Martian ionosphere and perform a statistical analysis of crustal magnetic field topology during different IMF configurations. We find that the topology of crustal field cusp regions is dependent on IMF direction and that cusps transition between open and closed topology regularly as they rotate through the nightside of Mars. Finally, we determine that cusps often become topologically closed due to reconnection with open magnetic fields in the Martian magnetotail, creating large closed loops that connect the dayside and nightside of Mars.

Topics & Concepts

Mars Exploration ProgramInterplanetary magnetic fieldMartianTopology (electrical circuits)GeophysicsSolar windPhysicsAtmosphere of MarsMagnetic fieldAtmosphere (unit)Mercury's magnetic fieldPlanetDipole model of the Earth's magnetic fieldGeologyL-shellInterplanetary spaceflightAstrobiologyEarth's magnetic fieldAstrophysicsMeteorologyCombinatoricsMathematicsQuantum mechanicsPlanetary Science and ExplorationAstro and Planetary ScienceSpace Science and Extraterrestrial Life
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