利用NIHAO-UHD模拟探索类银河系星系中低金属丰度恒星的起源

F. Sestito, T. Buck, E. Starkenburg, N. Martin, J. Navarro, K. Venn, A. Obreja, P. Jablonka, A. Macciò
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引用次数: 13

摘要

最缺乏金属的恒星的运动学为了解银河系的早期形成和吸积历史提供了一个窗口。在这里,我们使用来自NIHAO-UHD项目的5个高分辨率宇宙学放大模拟($\sim~5\times10^6$恒星粒子)来研究低金属丰度恒星的起源([Fe/H] $\leq-2.5$)。模拟结果显示,最近在银河系中发现的大量低金属丰度恒星被限制在圆盘平面上。这一发现的普遍性表明,银河系在这方面并非独一无二。独立于吸积历史之外,我们发现$\gtrsim~90$这个星系群中百分之百的逆行恒星是在宇宙大爆炸后的最初几年中星系的初始形成过程中引入的。因此,我们的研究结果突出了逆行星系群作为银河系早期形成的示踪剂的巨大潜力。另一方面,顺行平面星族是在后期聚集阶段被吸积的,它代表了整个星系的吸积历史。在平静吸积历史的情况下,这个顺行星系群主要是在宇宙演化的前半部分($t\lesssim7$ Gyr)引入的,而在持续活跃的吸积历史的情况下,后来在顺行轨道上的合并也能够贡献这个星系群。最后,我们注意到银河系中有相当多偏心的、金属含量非常低的平面恒星。这是我们大多数模拟中没有看到的功能,除了一个具有异常活跃的早期构建阶段的模拟。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploring the origin of low-metallicity stars in Milky-Way-like galaxies with the NIHAO-UHD simulations
The kinematics of the most metal-poor stars provide a window into the early formation and accretion history of the Milky Way. Here, we use 5~high-resolution cosmological zoom-in simulations ($\sim~5\times10^6$ star particles) of Milky Way-like galaxies taken from the NIHAO-UHD project, to investigate the origin of low-metallicity stars ([Fe/H]$\leq-2.5$). The simulations show a prominent population of low-metallicity stars confined to the disk plane, as recently discovered in the Milky Way. The ubiquity of this finding suggests that the Milky Way is not unique in this respect. Independently of the accretion history, we find that $\gtrsim~90$ per cent of the retrograde stars in this population are brought in during the initial build-up of the galaxies during the first few Gyrs after the Big Bang. Our results therefore highlight the great potential of the retrograde population as a tracer of the early build-up of the Milky Way. The prograde planar population, on the other hand, is accreted during the later assembly phase and samples the full galactic accretion history. In case of a quiet accretion history, this prograde population is mainly brought in during the first half of cosmic evolution ($t\lesssim7$~Gyr), while, in the case of an on-going active accretion history, later mergers on prograde orbits are also able to contribute to this population. Finally, we note that the Milky Way shows a rather large population of eccentric, very metal-poor planar stars. This is a feature not seen in most of our simulations, with the exception of one simulation with an exceptionally active early building phase.
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