Radial distribution of distant trans-Neptunian objects points to Sun’s formation in a stellar clusterDavid Nesvorný,Pedro Bernardinelli,David Vokrouhlický,Konstantin BatyginIcarus(2023)引用 0|浏览4暂无评分摘要The Scattered Disk Objects (SDOs) are a population of trans-Neptunian bodies with semimajor axes 5035 au) are of special interest here as an important constraint on the early evolution of the outer Solar System. The semimajor axis profile of detached SDOs at 50–500 au, as characterized from the Dark Energy Survey (DES), is radially extended, but previous dynamical models of Neptune’s early migration produce a relatively compact profile. This problem is most likely related to Sun’s birth environment in a stellar cluster. We perform new dynamical simulations that account for cluster effects and show that the orbital distribution of SDOs can be explained if a particularly close stellar encounter occurred early on (e.g., M dwarf with the mass ≃0.2M⊙ approaching the Sun at ≃200 au). For such an encounter to happen with a reasonably high probability the Sun must have formed in a stellar cluster with ηT≳104 Myr pc−3, where η is the stellar number density and T is the Sun’s residence time in the cluster.更多查看译文关键词Trans-Neptunian objectsAI 理解论文溯源树样例生成溯源树,研究论文发展脉络Chat Paper正在生成论文摘要