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Autori principali: Yang, Yongzhang, Yan, Jianguo, Jian, Nianchuan, Matsumoto, Koji, Barriot, Jean-Pierre
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2405.05519
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author Yang, Yongzhang
Yan, Jianguo
Jian, Nianchuan
Matsumoto, Koji
Barriot, Jean-Pierre
author_facet Yang, Yongzhang
Yan, Jianguo
Jian, Nianchuan
Matsumoto, Koji
Barriot, Jean-Pierre
contents High-precision ephemerides are not only useful in supporting space missions, but also in investigating the physical nature of celestial bodies. This paper reports an update to the orbit and rotation model of the Martian moon Phobos. In contrast to earlier numerical models, this paper details a dynamical model that fully considers the rotation of Phobos. Here, Phobos' rotation is first described by Euler's rotational equations and integrated simultaneously with the orbital motion equations. We discuss this dynamical model, along with the differences with respect to the model now in use. We present the variational equation for Phobos' rotation employing the symbolic \emph{Maple} computation software. The adjustment test simulations confirm the latitude libration of Phobos, suggesting gravity field coefficients obtained using a shape model and homogeneous density hypothesis should be re-examined in the future in the context of dynamics. Furthermore, the simulations with different $k_2$ values indicate that it is difficult to determine k_2 efficiently using the current data.
format Preprint
id arxiv_https___arxiv_org_abs_2405_05519
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Numerical model of Phobos' motion incorporating the effects of free rotation
Yang, Yongzhang
Yan, Jianguo
Jian, Nianchuan
Matsumoto, Koji
Barriot, Jean-Pierre
Earth and Planetary Astrophysics
High-precision ephemerides are not only useful in supporting space missions, but also in investigating the physical nature of celestial bodies. This paper reports an update to the orbit and rotation model of the Martian moon Phobos. In contrast to earlier numerical models, this paper details a dynamical model that fully considers the rotation of Phobos. Here, Phobos' rotation is first described by Euler's rotational equations and integrated simultaneously with the orbital motion equations. We discuss this dynamical model, along with the differences with respect to the model now in use. We present the variational equation for Phobos' rotation employing the symbolic \emph{Maple} computation software. The adjustment test simulations confirm the latitude libration of Phobos, suggesting gravity field coefficients obtained using a shape model and homogeneous density hypothesis should be re-examined in the future in the context of dynamics. Furthermore, the simulations with different $k_2$ values indicate that it is difficult to determine k_2 efficiently using the current data.
title Numerical model of Phobos' motion incorporating the effects of free rotation
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2405.05519