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Limiting behavior of asteroid obliquity and spin using a semi-analytic thermal model of the YORP effect

Authors :
Golubov, Oleksiy
Unukovych, Vladyslav
Scheeres, Daniel J.
Publication Year :
2021

Abstract

The Yarkovsky--O'Keefe--Radzievskii--Paddack (YORP) effect governs the spin evolution of small asteroids. The axial component of YORP, which alters the rotation rate of the asteroid, is mostly independent of its thermal inertia, while the obliquity component is very sensitive to the thermal model of the asteroid. Here we develop a semi-analytic theory for the obliquity component of YORP. We integrate an approximate thermal model over the surface of an asteroid, and find an analytic expression for the obliquity component in terms of two YORP coefficients. This approach allows us to investigate the overall evolution of asteroid rotation state, and to generalize the results previously obtained in the case of zero thermal inertia. The proposed theory also explains how a non-zero obliquity component of YORP originates even for a symmetric asteroid due to its finite thermal inertia. In many cases, this causes equatorial planes of asteroids to align with their orbital planes. The studied non-trivial behavior of YORP as a function of thermal model allows for a new kind of rotational equilibria, which can have important evolutionary consequences for asteroids.<br />Comment: Accepted to AJ

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2104.11840
Document Type :
Working Paper
Full Text :
https://doi.org/10.3847/1538-3881/abfb64