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Auteurs principaux: Stueber, Haley R., Mantz, Adam B., Allen, Steven W., Flores, Anthony M., Morris, R. Glenn, Pan, Abigail Y., Somboonpanyakul, Taweewat, Bleem, Lindsey E., Calzadilla, Michael, Floyd, Benjamin, Hlavacek-Larrondo, Julie, McDonald, Michael, Sarkar, Arnab
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2601.14425
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author Stueber, Haley R.
Mantz, Adam B.
Allen, Steven W.
Flores, Anthony M.
Morris, R. Glenn
Pan, Abigail Y.
Somboonpanyakul, Taweewat
Bleem, Lindsey E.
Calzadilla, Michael
Floyd, Benjamin
Hlavacek-Larrondo, Julie
McDonald, Michael
Sarkar, Arnab
author_facet Stueber, Haley R.
Mantz, Adam B.
Allen, Steven W.
Flores, Anthony M.
Morris, R. Glenn
Pan, Abigail Y.
Somboonpanyakul, Taweewat
Bleem, Lindsey E.
Calzadilla, Michael
Floyd, Benjamin
Hlavacek-Larrondo, Julie
McDonald, Michael
Sarkar, Arnab
contents Galaxy clusters serve as a unique and valuable laboratory for probing cosmological models and understanding astrophysics at the high-mass limit of structure formation. Clusters that are dynamically relaxed are especially useful targets of study because of their morphological and dynamical simplicity. However, at redshifts z > 1, very few such clusters have been identified. We present results from new Chandra observations of the cluster SPT-CL J2215-3537 (hereafter SPT J2215), at z = 1.16, the second most distant relaxed, cool-core cluster identified to date. We place constraints on the cluster's total mass profile and investigate its thermodynamic profiles, scaling relations (gas mass, average temperature, and X-ray luminosity), and metal enrichment, resolving the cool core and providing essential context for the massive starburst seen in its central galaxy. We contextualize the thermodynamic and cosmological properties of the cluster within a sample of well-studied, lower-redshift relaxed systems. In this way, SPT J2215 serves as a powerful high-redshift benchmark for understanding the formation of cool cores and the evolution of massive clusters of galaxies.
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spellingShingle Deep Chandra Observations of the z = 1.16 Relaxed, Cool-core Galaxy Cluster SPT-CL J2215-3537
Stueber, Haley R.
Mantz, Adam B.
Allen, Steven W.
Flores, Anthony M.
Morris, R. Glenn
Pan, Abigail Y.
Somboonpanyakul, Taweewat
Bleem, Lindsey E.
Calzadilla, Michael
Floyd, Benjamin
Hlavacek-Larrondo, Julie
McDonald, Michael
Sarkar, Arnab
Cosmology and Nongalactic Astrophysics
Galaxy clusters serve as a unique and valuable laboratory for probing cosmological models and understanding astrophysics at the high-mass limit of structure formation. Clusters that are dynamically relaxed are especially useful targets of study because of their morphological and dynamical simplicity. However, at redshifts z > 1, very few such clusters have been identified. We present results from new Chandra observations of the cluster SPT-CL J2215-3537 (hereafter SPT J2215), at z = 1.16, the second most distant relaxed, cool-core cluster identified to date. We place constraints on the cluster's total mass profile and investigate its thermodynamic profiles, scaling relations (gas mass, average temperature, and X-ray luminosity), and metal enrichment, resolving the cool core and providing essential context for the massive starburst seen in its central galaxy. We contextualize the thermodynamic and cosmological properties of the cluster within a sample of well-studied, lower-redshift relaxed systems. In this way, SPT J2215 serves as a powerful high-redshift benchmark for understanding the formation of cool cores and the evolution of massive clusters of galaxies.
title Deep Chandra Observations of the z = 1.16 Relaxed, Cool-core Galaxy Cluster SPT-CL J2215-3537
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2601.14425