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CHEERS: The chemical evolution RGS sample

Authors :
de Plaa, J.
Kaastra, J. S.
Werner, N.
Pinto, C.
Kosec, P.
Zhang, Y-Y.
Mernier, F.
Lovisari, L.
Akamatsu, H.
Schellenberger, G.
Hofmann, F.
Reiprich, T. H.
Finoguenov, A.
Ahoranta, J.
Sanders, J. S.
Fabian, A. C.
Pols, O.
Simionescu, A.
Vink, Jacco
Boehringer, H.
Source :
A&A 607, A98 (2017)
Publication Year :
2017

Abstract

The chemical yields of supernovae and the metal enrichment of the hot intra-cluster medium (ICM) are not well understood. This paper introduces the CHEmical Enrichment RGS Sample (CHEERS), which is a sample of 44 bright local giant ellipticals, groups and clusters of galaxies observed with XMM-Newton. This paper focuses on the abundance measurements of O and Fe using the reflection grating spectrometer (RGS). The deep exposures and the size of the sample allow us to quantify the intrinsic scatter and the systematic uncertainties in the abundances using spectral modeling techniques. We report the oxygen and iron abundances as measured with RGS in the core regions of all objects in the sample. We do not find a significant trend of O/Fe as a function of cluster temperature, but we do find an intrinsic scatter in the O and Fe abundances from cluster to cluster. The level of systematic uncertainties in the O/Fe ratio is estimated to be around 20-30%, while the systematic uncertainties in the absolute O and Fe abundances can be as high as 50% in extreme cases. We were able to identify and correct a systematic bias in the oxygen abundance determination, which was due to an inaccuracy in the spectral model. The lack of dependence of O/Fe on temperature suggests that the enrichment of the ICM does not depend on cluster mass and that most of the enrichment likely took place before the ICM was formed. We find that the observed scatter in the O/Fe ratio is due to a combination of intrinsic scatter in the source and systematic uncertainties in the spectral fitting, which we are unable to disentangle. The astrophysical source of intrinsic scatter could be due to differences in AGN activity and ongoing star formation in the BCG. The systematic scatter is due to uncertainties in the spatial line broadening, absorption column, multi-temperature structure and the thermal plasma models. (Abbreviated).<br />Comment: 16 pages, 13 figures, accepted for publication in A&A

Details

Database :
arXiv
Journal :
A&A 607, A98 (2017)
Publication Type :
Report
Accession number :
edsarx.1707.05076
Document Type :
Working Paper
Full Text :
https://doi.org/10.1051/0004-6361/201629926