Spin states of X-complex asteroids in the inner main belt -- I. Investigating the Athor and Zita collisional families

arXiv - PHYS - Earth and Planetary Astrophysics Pub Date : 2024-09-05 DOI:arxiv-2409.03419

D. Athanasopoulos, J. Hanuš, C. Avdellidou, G. van Belle, A. Ferrero, R. Bonamico, K. Gazeas, M. Delbo, J. P. Rivet, G. Apostolovska, N. Todorović, B. Novakovic, E. V. Bebekovska, Y. Romanyuk, B. T. Bolin, W. Zhou, H. Agrusa

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Abstract

The aim of our study is to characterise the spin states of the members of the Athor and Zita collisional families and test whether these members have a spin distribution consistent with a common origin from the break up of their respective family parent asteroids. Our method is based on the asteroid family evolution, which indicates that there should be a statistical predominance of retrograde-rotating asteroids on the inward side of family's V-shape, and prograde-rotating asteroids on the outward side. We used photometric data from our campaign and the literature in order to reveal the spin states of the asteroids belonging to these families. We combined dense and sparse photometric data in order to construct lightcurves; we performed the lightcurve inversion method to estimate the sidereal period, spin axis and convex shape of several family members. We obtained 34 new asteroid models for Athor family members and 17 for Zita family members. Along with the literature and revised models, the Athor family contains 60% of retrograde asteroids on the inward side and, 76% of prograde asteroids on the outward side. We also found that the Zita family exhibits 80% of retrograde asteroids on the inward side and an equal amount of prograde and retrograde rotators on the outward side. However, when we applied Kernel density estimation, we also found a clear peak for prograde asteroids on the outward side, as expected from the theory. The spin states of these asteroids validate the existence of both families, with the Athor family exhibiting a stronger signature for the presence of retrograde-rotating and prograde-rotating asteroids on the inner and outer side of the family, respectively. Our work provides an independent confirmation and characterisation of these very old families, whose presence and characteristics offer constraints for theories and models of the Solar System's evolution.

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内主带 X 复合小行星的自旋状态 -- I. 调查 Athor 和 Zita 碰撞家族

我们研究的目的是描述阿托尔（Athor）和齐塔（Zita）碰撞家族成员的自旋状态，并检验这些成员的自旋分布是否与它们各自家族母体小行星解体后的共同起源相一致。我们的方法是基于小行星族的演化过程，该演化过程表明，在统计上，小行星族的V形内侧应该以逆向旋转的小行星为主，而外侧则以顺向旋转的小行星为主。为了揭示属于这些家族的小行星的自旋状态，我们使用了我们的活动和文献中的测光数据。我们将密集和稀疏的测光数据结合起来，以构建光曲线；我们使用光曲线反演法估算了几个家族成员的恒星周期、自旋轴和凸形。我们获得了 34 个新的 Athor 家族成员小行星模型和 17 个新的 Zita 家族成员小行星模型。根据文献和修订后的模型，阿托尔（Athor）家族包含了60%的向内侧逆行小行星和76%的向外侧顺行小行星。我们还发现，Zita 星系的内侧有 80% 的逆行小行星，而外侧有同等数量的顺行和逆行小行星。然而，当我们应用核密度估计时，我们也发现顺行小行星在外侧有一个明显的峰值，这也是理论所预期的。这些小行星的自旋态验证了这两个家族的存在，阿托尔家族的内侧和外侧分别显示出逆向旋转和顺向旋转小行星的更强特征。我们的工作为这些非常古老的家族提供了独立的确认和特征，它们的存在和特征为太阳系演化的理论和模型提供了约束。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Earth and Planetary Astrophysics

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