The relation between the cool-core radius and the host galaxy clusters: thermodynamic properties and cluster mass
We present a detailed study of cool-core systems in a sample of four galaxy clusters (RXCJ1504.1-0248, A3112, A4059, and A478) using archival X-ray data from the Chandra X-ray Observatory. Cool cores are frequently observed at the centers of galaxy clusters and are considered to be formed by radiati...
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Zusammenfassung: | We present a detailed study of cool-core systems in a sample of four galaxy
clusters (RXCJ1504.1-0248, A3112, A4059, and A478) using archival X-ray data
from the Chandra X-ray Observatory. Cool cores are frequently observed at the
centers of galaxy clusters and are considered to be formed by radiative cooling
of the intracluster medium (ICM). Cool cores are characterized by a significant
drop in the ICM temperature toward the cluster center. We extract and analyze
X-ray spectra of the ICM to measure the radial profiles of the ICM
thermodynamic properties including temperature, density, pressure, entropy, and
radiative cooling time. We define the cool-core radius as the turnover radius
in the ICM temperature profile and investigate the relation between the
cool-core radius and the properties of the host galaxy clusters. In our sample,
we observe that the radiative cooling time of the ICM at the cool-core radius
exceeds 10 Gyr, with RXCJ1504.1-0248 exhibiting a radiative cooling time of
$32^{+5}_{-11}$ Gyr at its cool-core radius. These results indicate that not
only radiative cooling but also additional mechanisms such as gas sloshing may
play an important role in determining the size of cool cores. Additionally, we
find that the best-fit relation between the cool-core radius and the cluster
mass ($M_{500}$) is consistent with a linear relation. Our findings suggest
that cool cores are linked to the evolution of their host galaxy clusters. |
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DOI: | 10.48550/arxiv.2309.16297 |