中性宇宙机器细丝和暗物质光环如何影响星系冷气体含量

Wenlin Ma, Hong Guo, Michael G. Jones
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摘要

目的研究在经验模型NeutralUniverseMachine(NUM)和流体力学模拟IllustrisTNG中,细丝和暗物质光环的距离对星系冷气体含量的影响。方法。我们利用DisPerSE来识别宇宙网结构,并计算观测数据和模型中星系与细丝的距离。我们展示了NUM模型和IllustrisTNG中不同距离丝状结构星系的HI和H2质量函数、HI-和H2-光质量关系、HI-和H2-恒星质量关系的结果,并与观测测量结果进行了比较。我们还展示了不同距离丝束的 HI、H2 质量密度的演变。结果。我们发现,与光环环境相比,丝状体在影响HI气体方面的作用一般不太显著。在z = 0的观测结果中,有一个很明显的趋势,即距离细丝较近的低质量光环往往具有较小的HI质量。然而,这一趋势在对数(Mvir/Msun)大于12.5的大质量光环中发生了逆转。由于HI气体与半球形成时间的关系,这种行为在NUM模型中得到了精确的再现,但在IllustrisTNG中却没有出现。在较高的红移下,丝状体对HI气体的影响变得稍弱,而且在NUM模型中,丝状体只对位于大质量光晕中的星系有显著影响。在这两个模型中,丝状体对H2-恒星质量关系几乎没有影响,这证实了H2主要由星系恒星质量和恒星形成率决定。
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NeutralUniverseMachine: How Filaments and Dark Matter Halo Influence the Galaxy Cold Gas Content
Aims. To investigate the influence of distance to filaments and dark matter halos on galaxy cold gas content in the empirical model NeutralUniverseMachine (NUM) and the hydrodynamical simulation IllustrisTNG. Methods. We use DisPerSE to identify cosmic web structures and calculate the distance of galaxies to filaments for both observations and models. We show the results of the HI and H2 mass functions, HI- and H2-halo mass relations, HI- and H2-stellar mass relations for galaxies in the NUM model and IllustrisTNG with different distances to filaments and compare them with observational measurements. We also show the evolution of HI, H2 mass densities in different distance to filament bins. Results. We find that the role of filaments in affecting the HI gas is generally less significant compared to the halo environment. There is a weak trend in the observations at z = 0 that low-mass halos lying closer to filaments tend to have reduced HI masses. However, this trend reverses for massive halos with log(Mvir/Msun) > 12.5. This behavior is accurately reproduced in the NUM model due to the dependence of HI gas on the halo formation time, but it does not appear in IllustrisTNG. The influence of filaments on the HI gas becomes slightly weaker at higher redshifts and is only significant for galaxies residing in massive halos in the NUM model. Filaments have almost no impact on the H2-stellar mass relation in both models, confirming that H2 is primarily determined by the galaxy stellar mass and star formation rate.
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