Premium
Core solidification and dynamo evolution in a mantle‐stripped planetesimal
Author(s) -
Scheinberg A.,
ElkinsTanton L. T.,
Schubert G.,
Bercovici D.
Publication year - 2016
Publication title -
journal of geophysical research: planets
Language(s) - English
Resource type - Journals
eISSN - 2169-9100
pISSN - 2169-9097
DOI - 10.1002/2015je004843
Subject(s) - dynamo , planetesimal , geology , inner core , settling , planet , geophysics , magnetic field , physics , thermodynamics , astrophysics , quantum mechanics
The physical processes active during the crystallization of a low‐pressure, low‐gravity planetesimal core are poorly understood but have implications for asteroidal magnetic fields and large‐scale asteroidal structure. We consider a core with only a thin silicate shell, which could be analogous to some M‐type asteroids including Psyche, and use a parameterized thermal model to predict a solidification timeline and the resulting chemical profile upon complete solidification. We then explore the potential strength and longevity of a dynamo in the planetesimal's early history. We find that cumulate inner core solidification would be capable of sustaining a dynamo during solidification, but less power would be available for a dynamo in an inward dendritic solidification scenario. We also model and suggest limits on crystal settling and compaction of a possible cumulate inner core.