Feasibility of characterizing subsurface brines on Ceres by electromagnetic sounding [EPA]

http://arxiv.org/abs/2101.07754


The ice-rich dwarf planet Ceres is the largest object in the main asteroid belt and is thought to have a brine or mud layer at a depth of tens of kilometers. Furthermore, recent surface deposits of brine-sourced material imply shallow feeder structures such as sills or dikes. Inductive sounding of Ceres can be performed using the solar wind as a source, as was done for the Moon during Apollo. However, the magnetotelluric method — measuring both electric and magnetic fields at the surface — is not sensitive to plasma effects that were experienced for Apollo, which used an orbit-to-surface magnetic transfer function. The highly conductive brine targets are readily separable from the resistive ice and rock interior, such that the depth to deep and shallow brines can be assessed simultaneously. The instrumentation will be tested on the Moon in 2023 and is ready for implementation on a Ceres landed mission.

Read this paper on arXiv…

R. Grimm, J. Castillo-Rogez, C. Raymond, et. al.
Wed, 20 Jan 21
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