I. Analysis of candidates for interacting galaxy clusters

Merging galaxy clusters allows to study the different mass components, dark and baryonic, separately. Also their occurrence enables to test the \(\Lambda\)CDM scenario and they could put constrains in the self interacting cross section of the dark matter particle. It is necessary to perform an homog...

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Bibliographic Details
Published in:arXiv.org 2018-01
Main Authors: Gonzalez, Elizabeth J, de los Rios, Martín, Oio, Gabriel A, Daniel Hernández Lang, Tania Aguirre Tagliaferro, Domínguez, Mariano J R, José Luis Nilo Castellón, Cuevas, Héctor L, Valotto, Carlos A
Format: Article
Language:English
Subjects:
Cluster analysis
Dark matter
Galactic clusters
Galaxies
Galaxy mergers & collisions
Gamma rays
Interacting galaxies
Star & galaxy formation
X ray analysis
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Summary:Merging galaxy clusters allows to study the different mass components, dark and baryonic, separately. Also their occurrence enables to test the \(\Lambda\)CDM scenario and they could put constrains in the self interacting cross section of the dark matter particle. It is necessary to perform an homogeneous analysis of these systems. Hence, based in a recently presented sample of candidates for interacting galaxy clusters, we present the analysis of two of these cataloged systems. In this work, the first of a serie devoted to characterize galaxy clusters in merger process, we perform a weak lensing analysis of A1204 and A2029/2033 clusters to derive the total masses of each identified interacting structures together with a dynamical study based on a two-body model. We also describe the gas and the mass distributions in the field through a lensing and an X-ray analysis. This is the first of a series of works which will analyze these type of systems to characterize them. Both merging clusters candidates do not show evidence of having had a recent merger event. Nevertheless, there is dynamical evidence that these systems could be interacting or could interact in the future. It is necessary to include more constrains in order to improve the methodology to classify merging galaxy clusters. Characterization of these clusters is important in order to understand in deep the nature of these systems and their connection with dynamical studies.
ISSN:2331-8422
DOI:10.48550/arxiv.1801.01498