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Simulating the impact of dust cooling on the statistical properties of the intracluster medium

Abstract : From the first stages of star and galaxy formation, non-gravitational processes such as ram pressure stripping, SNs, galactic winds, AGNs, galaxy-galaxy mergers, etc... lead to the enrichment of the IGM in stars, metals as well as dust, via the ejection of galactic material into the IGM. We know now that these processes shape, side by side with gravitation, the formation and the evolution of structures. We present here hydrodynamic simulations of structure formation implementing the effect of the cooling by dust on large scale structure formation. We focus on the scale of galaxy clusters and study the statistical properties of clusters. Here we present our results on the TX-M and the LX-M scaling relations which exhibit changes on both the slope and normalization when adding cooling by dust to the standard radiative cooling model. For example, the normalization of the TX-M relation changes only by a maximum of 2% at M=1014Mcircled dot operator whereas the normalization of the LX-TX changes by as much as 10% at TX=1 keV for models that including dust cooling. Our study shows that the dust is an added non-gravitational process that contributes shaping the thermodynamical state of the hot ICM gas.
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Contributor : Simone Lantz <>
Submitted on : Wednesday, May 27, 2009 - 10:26:24 AM
Last modification on : Monday, April 5, 2021 - 2:26:07 PM

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E. Pointecouteau, A. da Silva, A. Catalano, L. Montier, J. Lanoux, et al.. Simulating the impact of dust cooling on the statistical properties of the intracluster medium. Advances in Space Research, Elsevier, 2009, ⟨10.1016/j.asr.2009.05.006⟩. ⟨in2p3-00388688⟩



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