TNG100 模拟中旋转支撑力最强的圆盘星系的组合

Silvio Rodriguez, Valeria A. Cristiani, Laura V. Sales, Mario G. Abadi
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摘要

在像$\Lambda$CDM这样的层次结构情景中,盘状星系可能很难适应,因为在这种情景中,合并是一个重要的增长机制。然而,观测证据表明这些星系是常见的。我们试图描述在$\Lambda$CDM中形成以圆盘为主的星系的条件。我们在模拟Illustris TNG100的所有恒星质量为M_*=[10^{10} \rm - 10^{11}]\;\rm M_\odot$的星系中使用了动力学分解方法。我们选取了43个质量小于$\sim 10\%$ 的大部分为盘状星系的凸起部分作为样本。为了进行比较,我们还研究了另外两个恒星质量匹配的样本:其中43个中间星系的质量有30%在隆起部分,另外43个则具有纯粹的球状形态。我们发现,基于恒星动力学的选择能够再现不同形态的预期恒星种群趋势,即以盘状为主的星系中恒星形成率更高,恒星更年轻。光环自旋似乎对星系的形态没有影响。在固定的M_*$条件下,我们的大部分圆盘星系和中间星系样本形成的暗物质晕的质量比球面星系样本小2-10倍,这表明圆盘星系保留和浓缩重子的效率更高。平均来说,合并在圆盘星系的形成过程中不如在球面星系中那么普遍,但也存在着很大的差异,包括存在着大部分为圆盘星系的星系,其中有15%-30%的恒星来自于吸积。圆盘很早就开始形成了,早在9-10亿年前就形成了较低的垂直速度弥散,尽管圆盘相对于球面的优势是最近才确立的(3-4亿年前)。在样本中质量最低、气体中角动量分布最均匀的光环中,形成了最有旋转支持的圆盘。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The assembly of the most rotationally supported disc galaxies in the TNG100 simulations
Disc dominated galaxies can be difficult to accommodate in a hierarchical formation scenario like $\Lambda$CDM, where mergers are an important growth mechanism. However, observational evidence indicates that these galaxies are common. We seek to characterise the conditions that lead to the formation of disc dominated galaxies within $\Lambda$CDM. We use dynamical decomposition in all galaxies with stellar mass $M_*=[10^{10} \rm - 10^{11}]\; \rm M_\odot$ within the simulation Illustris TNG100. We select a sample of 43 mostly-disc galaxies having less than $\sim 10\%$ of their mass into a bulge component. For comparison, we also study two additional stellar-mass matched samples: 43 intermediate galaxies having $\sim 30\%$ of their mass in the bulge and 43 with purely spheroidal-like morphology. We find that the selection based on stellar dynamics is able to reproduce the expected stellar population trends of different morphologies, with higher star-formation rates and younger stars in disc-dominated galaxies. Halo spin seems to play no role in the morphology of the galaxies. At fixed $M_*$, our mostly-disc and intermediate samples form in dark matter haloes that are $2$-$10$ times less massive than the spheroidal sample, highlighting a higher efficiency in disc galaxies to retain and condensate their baryons. On average, mergers are less prevalent in the build up of discs than in spheroidal galaxies, but there is a large scatter, including the existence of mostly-disc galaxies with $15\%$-$30\%$ of their stars from accreted origin. Discs start forming early on, settling their low vertical velocity dispersion as early as $9$-$10$ Gyr ago, although the dominance of the disc over the spheroid gets established more recently ($3$-$4$ Gyr ago). The most rotationally supported discs form in haloes with the lowest mass in the sample and best aligned distribution of angular momentum in the gas.
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