Ana Contreras-Santos, Fernando Buitrago, Alexander Knebe, Elena Rasia, Frazer R. Pearce, Weiguang Cui, Chris Power, Jordan Winstanley
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引用次数: 0
摘要
对暗物质含量极低的大质量星系(即 NGC 1277)的观测提出了关于这类天体如何在层次宇宙中形成和演化的问题。我们在这里报告在一组通过全物理流体力学模拟进行理论模拟的 324 个星系团中发现的几个大质量暗物质缺乏星系。我们首先从质量最大、暗物质最缺乏的星系中挑选出两个星系作为研究对象。通过追踪这些星系的演化过程,我们发现它们的暗物质缺乏是由多个圆心通道造成的。在环绕宿主光环的过程中,潮汐相互作用逐渐剥离了暗物质,同时保留了恒星成分。对模拟星团中所有大质量卫星星系的统计分析显示,恒星质量与总质量之比在很大程度上受轨道数量和圆心距离的影响。轨道数量越多、中心距离越近的星系,暗物质缺失程度越高。此外,我们还发现,目前的大质量暗物质缺乏星系要么是正在衰变的超大质量星系的残余,要么是正在衰变的星系团的前中心星系。我们的结论是,这种大质量但暗物质缺乏的星系是存在的,而且是典型的星团星系演化的自然副产品,不需要特殊的形成过程。
The Three Hundred: The existence of massive dark matter-deficient satellite galaxies in cosmological simulations
The observation of a massive galaxy with an extremely low dark matter content
(i.e. NGC 1277) has posed questions about how such objects form and evolve in a
hierarchical universe. We here report on the finding of several massive, dark
matter-deficient galaxies in a set of 324 galaxy clusters theoretically
modelled by means of full-physics hydrodynamical simulations. We first focus on
two example galaxies selected amongst the most massive and dark
matter-deficient ones. By tracing the evolution of these galaxies, we find that
their lack of dark matter is a result of multiple pericentre passages. While
orbiting their host halo, tidal interactions gradually strip away dark matter
while preserving the stellar component. A statistical analysis of all massive
satellite galaxies in the simulated clusters shows that the stellar-to-total
mass ratio today is strongly influenced by the number of orbits and the
distance at pericentres. Galaxies with more orbits and closer pericentres are
more dark matter-deficient. Additionally, we find that massive, dark
matter-deficient galaxies at the present day are either the remnants of very
massive galaxies at infall or former central galaxies of infalling groups. We
conclude that such massive yet dark matter-deficient galaxies exist and are
natural by-products of typical cluster galaxy evolution, with no specific
requirement for an exotic formation scenario.
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