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Detection of the Chandler Wobble of Mars From Orbiting Spacecraft

A. S. Konopliv, Ryan S. Park, Attilio Rivoldini, Rose‐Marie Baland, S. Le Maistre, Tim Van Hoolst, Marie Yseboodt, V. Dehant

2020Geophysical Research Letters88 citationsDOIOpen Access PDF

Abstract

Abstract For the first time for any planetary body other than the Earth, the free wobble of the pole called the Chandler wobble has been detected for Mars with a period of 206.9 ± 0.5 days and amplitude of 10 cm from radio tracking observations of Mars Odyssey, Mars Reconnaissance Orbiter (MRO), and Mars Global Surveyor (MGS), in order of decreasing sensitivity. The motion of the rotation pole location on the surface of Mars, or polar motion, is observed using two different approaches: (1) joint global estimates of Mars' orientation and its gravity field and (2) time series solutions of C 21 and S 21 . For Mars interior models, the Chandler wobble period is combined with other measurements including the moments of inertia from our estimated precession rate and tidal Love number k 2 = 0.169 ± 0.006. The Chandler wobble period constrains the rheology of the Martian mantle and in particular its long‐term frequency dependence.

Topics & Concepts

Polar motionMars Exploration ProgramSpeed wobbleGeologyGeodesyOrbiterNutationMartianAtmosphere of MarsGeophysicsMoment of inertiaPhysicsAstrobiologyEarth's rotationAstronomyClassical mechanicsPlanetary Science and ExplorationAstro and Planetary ScienceGeophysics and Gravity Measurements
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