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Spatial Distribution of Intracluster Light versus Dark Matter in Horizon Run 5
One intriguing approach for studying the dynamical evolution of galaxy clusters is to compare the spatial distributions among various components, such as dark matter, member galaxies, gas, and intracluster light (ICL). Utilizing the recently introduced Weighted Overlap Coefficient (WOC) \citep{2022A...
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| creator | Yoo, Jaewon Park, Changbom Sabiu, Cristiano G Singh, Ankit Ko, Jongwan Lee, Jaehyun Pichon, Christophe Jee, M James Gibson, Brad K Snaith, Owain Kim, Juhan Shin, Jihye Kim, Yonghwi Kim, Hyowon |
| description | One intriguing approach for studying the dynamical evolution of galaxy clusters is to compare the spatial distributions among various components, such as dark matter, member galaxies, gas, and intracluster light (ICL). Utilizing the recently introduced Weighted Overlap Coefficient (WOC) \citep{2022ApJS..261...28Y}, we analyze the spatial distributions of components within 174 galaxy clusters (\(M_{\rm tot}> 5 \times 10^{13} M_{\odot}\), \(z=0.625\)) at varying dynamical states in the cosmological hydrodynamical simulation Horizon Run 5. We observe that the distributions of gas and the combination of ICL with the brightest cluster galaxy (BCG) closely resembles the dark matter distribution, particularly in more relaxed clusters, characterized by the half-mass epoch. The similarity in spatial distribution between dark matter and BCG+ICL mimics the changes in the dynamical state of clusters during a major merger. Notably, at redshifts \(>\) 1, BCG+ICL traced dark matter more accurately than the gas. Additionally, we examined the one-dimensional radial profiles of each component, which show that the BCG+ICL is a sensitive component revealing the dynamical state of clusters. We propose a new method that can approximately recover the dark matter profile by scaling the BCG+ICL radial profile. Furthermore, we find a recipe for tracing dark matter in unrelaxed clusters by including the most massive satellite galaxies together with BCG+ICL distribution. Combining the BCG+ICL and the gas distribution enhances the dark matter tracing ability. Our results imply that the BCG+ICL distribution is an effective tracer for the dark matter distribution, and the similarity of spatial distribution may be a useful probe of the dynamical state of a cluster. |
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| subjects | Dark matter Galactic clusters Galactic evolution Galaxy distribution Similarity Spatial distribution Stars & galaxies Tracing |
| title | Spatial Distribution of Intracluster Light versus Dark Matter in Horizon Run 5 |
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