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Main Authors: Kara, Sinancan, Plšek, Tomáš, Protušová, Klaudia, Breuer, Jean-Paul, Werner, Norbert, Mernier, François, Ercan, E. Nihal
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2401.04709
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author Kara, Sinancan
Plšek, Tomáš
Protušová, Klaudia
Breuer, Jean-Paul
Werner, Norbert
Mernier, François
Ercan, E. Nihal
author_facet Kara, Sinancan
Plšek, Tomáš
Protušová, Klaudia
Breuer, Jean-Paul
Werner, Norbert
Mernier, François
Ercan, E. Nihal
contents The chemical enrichment of X-ray-emitting hot atmospheres has hitherto been primarily studied in galaxy clusters. These studies revealed relative abundances of heavy elements that are remarkably similar to Solar. Here, we present measurements of the metal content of M89 (NGC 4552), an elliptical galaxy infalling into the Virgo cluster with a $\sim$10 kpc ram-pressure stripped X-ray tail. We take advantage of deep Chandra and XMM-Newton observations, and with particular attention to carefully modelling the spectra, we measure the O/Fe, Ne/Fe, Mg/Fe, Si/Fe and S/Fe ratios. Contrary to previous measurements in galaxy clusters, our results for the hot atmosphere of M89 suggest super-Solar abundance ratios with respect to iron (i.e. $α$/Fe > 1), similar to its stellar components. Our analysis of the active galactic nucleus (AGN) activity in this system indicates that the AGN-induced outflow could have facilitated the stripping of the original galactic atmosphere, which has been replaced with fresh stellar mass loss material with super-Solar $α$/Fe abundance ratios. Additionally, we report a new fitting bias in the RGS data of low-temperature plasma. The measured O/Fe ratios are >1$σ$ lower in multi-temperature models than a single temperature fit, leading to discrepancies in the calculations of supernova fractions derived from the metal abundances.
format Preprint
id arxiv_https___arxiv_org_abs_2401_04709
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The infalling elliptical galaxy M89: The chemical composition of the AGN disturbed hot atmosphere
Kara, Sinancan
Plšek, Tomáš
Protušová, Klaudia
Breuer, Jean-Paul
Werner, Norbert
Mernier, François
Ercan, E. Nihal
High Energy Astrophysical Phenomena
Astrophysics of Galaxies
The chemical enrichment of X-ray-emitting hot atmospheres has hitherto been primarily studied in galaxy clusters. These studies revealed relative abundances of heavy elements that are remarkably similar to Solar. Here, we present measurements of the metal content of M89 (NGC 4552), an elliptical galaxy infalling into the Virgo cluster with a $\sim$10 kpc ram-pressure stripped X-ray tail. We take advantage of deep Chandra and XMM-Newton observations, and with particular attention to carefully modelling the spectra, we measure the O/Fe, Ne/Fe, Mg/Fe, Si/Fe and S/Fe ratios. Contrary to previous measurements in galaxy clusters, our results for the hot atmosphere of M89 suggest super-Solar abundance ratios with respect to iron (i.e. $α$/Fe > 1), similar to its stellar components. Our analysis of the active galactic nucleus (AGN) activity in this system indicates that the AGN-induced outflow could have facilitated the stripping of the original galactic atmosphere, which has been replaced with fresh stellar mass loss material with super-Solar $α$/Fe abundance ratios. Additionally, we report a new fitting bias in the RGS data of low-temperature plasma. The measured O/Fe ratios are >1$σ$ lower in multi-temperature models than a single temperature fit, leading to discrepancies in the calculations of supernova fractions derived from the metal abundances.
title The infalling elliptical galaxy M89: The chemical composition of the AGN disturbed hot atmosphere
topic High Energy Astrophysical Phenomena
Astrophysics of Galaxies
url https://arxiv.org/abs/2401.04709