The impact of dust on the scaling properties of galaxy clusters

Details The impact of dust on the scaling properties of galaxy clusters The impact of dust on the scaling properties of galaxy clusters

2008-08-17

arxiv.org/abs/0808.2313v1

Astronomy and Astrophysics

Astrophysics

12 pages, 6 figures, submitted to MNRAS

Scientific paper

We investigate the effect of dust on the scaling properties of galaxy clusters based on hydrodynamic N-body simulations of structure formation. We have simulated five dust models plus a radiative cooling and adiabatic models using the same initial conditions for all runs. The numerical implementation of dust was based on the analytical computations of Montier and Giard (2004). We set up dust simulations to cover different combinations of dust parameters that put in evidence the effects of size and abundance of dust grains. Comparing our radiative plus dust cooling runs to a purely radiative cooling simulation we find that dust has an impact on cluster scaling relations. It mainly affects the normalisation of the scalings (and their evolution), whereas it introduces no significant differences on their slopes. The strength of the effect depends critically on the dust abundance and grain size parameters as well as on the cluster scaling. Indeed, cooling due to dust is effective at the cluster regime and has a stronger effect on the "baryon driven" statistical properties of clusters such as $L_{\rm X}-M$, $Y- M$, $S-M$ scaling relations. Major differences, relative to the radiative cooling model, are as high as 25% for the $L_{\rm X}-M$ normalisation, and about 10% for the $Y-M$ and $S-M$ normalisations at redshift zero. On the other hand, we find that dust has almost no impact on the "dark matter driven" $T_{\rm mw}-M$ scaling relation. The effects are found to be dependent in equal parts on both dust abundances and grain sizes distributions for the scalings investigated in this paper. Higher dust abundances and smaller grain sizes cause larger departures from the radiative cooling (i.e. with no dust) model.

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