小行星对内主带调查

I. Kyrylenko, N. Y. Krugly, O. Golubov
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引用次数: 0

摘要

当一颗小行星由于碰撞、旋转裂变或双星系统衰变而分裂成两个未结合的碎片时,就形成了小行星对。小行星对的两个组成部分具有相似的物理特性,它们的轨道在融入过去后会趋于一致。目前已知的小行星对有 268 对,随着新小行星的不断发现,新的小行星对也会被发现。我们在内小行星带进行了一次调查,以发现新的小行星对,估计它们的年龄,并对它们的物理特性进行分类。由于目前还没有已知的 M 型小行星对,我们还对它们进行了专门的调查。我们根据候选小行星对在五维轨道元素空间中的距离对它们进行了预选。我们在其轨道元素的不确定性范围内创建了多个克隆体,并对它们的过去进行了回溯整合。我们在相对速度较小的近距离空间点寻找它们的克隆体汇聚点,其分布决定了小行星对的形成年龄。我们发现了 40 对新的小行星对,从而使已知的小行星对总数增加了 15 对。新发现的小行星对之一 469759 - 2016 QZ123 的年龄为 2.6_ $ kyr,是目前已知的第三年轻的小行星对。我们研究了这对小行星的相互引力对其演化过程的影响,并成功观测到了这对小行星过去的引力捕捉。作为小行星对搜索的副产品,我们发现一个年龄为 76_ $ kyr 的小行星群中连接着八颗小行星,该小行星群属于 Phocaea 家族,并包含了之前已知的一对小行星。我们证实了之前研究中发现的十对小行星的趋同性,并改进了它们的年龄估计。我们观察到 M 型小行星对的不足,因此对 M 型小行星对进行了专门搜索,但没有发现。
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Asteroid pairs: Survey of the inner main belt
An asteroid pair forms when an asteroid splits into two unbound fragments because of collision, rotational fission, or binary system decay. The two components of the asteroid pair share similar physical properties and their orbits converge when integrated into the past. Currently, 268 asteroid pairs are known, and new pairs are discovered alongside the continuous discovery of new asteroids. We conducted a survey in the inner asteroid belt to find new asteroid pairs, estimated their age, and classified their physical properties. As presently no M-type asteroid pairs are known, we also conducted a specialized survey of them. We preselected asteroid pair candidates based on their distances in the five-dimensional space of osculating orbital elements. We created multiple clones within the uncertainties of their orbital elements and conducted their backtrack integration into the past. We searched for convergence of their clones at close spatial points with small relative velocities, the distribution of which determines the pair formation age. We find 40 new asteroid pairs, thus increasing the total number of known pairs by 15. One of the newly discovered pairs, 469759 - 2016 QZ123, with an age of $2.6_ $ kyr is now the third-youngest known asteroid pair. We studied the influence of the mutual gravitation of pair components on the process of their evolution and successfully observed the gravitational catching of the two pair members in the past. As a byproduct of pair search, we find eight asteroids connected in a cluster with an age of $76_ $ kyr that belongs to the Phocaea family and incorporates one previously known asteroid pair. We confirm the convergence of ten asteroid pairs discovered in our previous research and improve their age estimates. We observed a deficiency of M-type asteroid pairs, and therefore conducted a dedicated search for M-type pairs, but found none.
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