Astronomy and Astrophysics – Astrophysics
Scientific paper
2005-12-20
Mon.Not.Roy.Astron.Soc.367:1641-1654,2006
Astronomy and Astrophysics
Astrophysics
15 pages, 10 figures, to appear in MNRAS; version with higher resolution figures available at http://www.daut.univ.trieste.i
Scientific paper
10.1111/j.1365-2966.2006.10075.x
We discuss an extended set of Tree+SPH simulations of galaxy clusters, with the goal of investigating the interplay between numerical resolution effects and star-formation/feedback processes. The simulated clusters span the mass range (0.1-2.3) 10^{15}Msun/h, with mass resolution varying by several decades. At the highest achieved resolution, we resolve the virial region of a Virgo-like cluster with more than 2 million gas particles and with at least as many dark-matter (DM) particles. Our resolution study confirms that, in the absence of an efficient feedback mechanism, runaway cooling leads to about 35 per cent of baryons in clusters to be locked up in long lived stars at our highest resolution, with no evidence of convergence. However, including feedback causes the fraction of cooled baryons to converge at about 15 per cent already at modest resolution. Feedback also stabilizes other gas-related quantities, such as radial profiles of entropy, gas density and temperature, against variations due to changes in resolution. We also investigate the influence of the gravitational force softening length, and that of numerical heating of the gas induced by two-body encounters between DM and lighter gas particles. We show that simulations where more DM than gas particles are used, show a significantly enhanced efficiency of star formation at z>3. Our results are important for establishing and delineating the regime of numerical reliability of the present generation of hydrodynamical simulations of galaxy clusters.
Borgani Stefano
Cheng Ling-Mei
Diaferio Antonaldo
Dolag Klaus
Moscardini Lauro
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