The Evolution of X-ray Clusters and the Entropy of the Intra Cluster Medium

Abstract

The thermodynamics of the diffuse, X-ray emitting gas in clusters of galaxies is determined by gravitational processes associated with shock heating, adiabatic compression, and non-gravitational processes such as heating by SNe, stellar winds, activity in the central galactic nucleus, and radiative cooling. The effect of gravitational processes on the thermodynamics of the Intra Cluster Medium (ICM) can be expressed in terms of the ICM entropy S ~ ln(T/2/3). We use a generalized spherical model to compute the X-ray properties of groups and clusters for a range of initial entropy levels in the ICM and for a range of mass scales, cosmic epochs and background cosmologies. We find that the statistical properties of the X-ray clusters strongly depend on the value of the initial excess entropy. Assuming a constant, uniform value for the excess entropy, the present-day X-ray data are well fitted for the following range of values K* = kT/μ mp 2/3 = (0.4 0.1) × 1034 erg cm2 g-5/3 for clusters with average temperatures kT>2 keV; K* = (0.2 0.1) × 1034 erg cm2 g-5/3 for groups and clusters with average temperatures kT<2 keV. These values correspond to different excess energy per particle of kT ≥ 0.1 (K*/0.4× 1034) keV. The dependence of K* on the mass scale can be well reproduced by an epoch dependent external entropy: the relation K* = 0.8(1+z)-1× 1034 erg cm2 g-5/3 fits the data over the whole temperature range. Observations of both local and distant clusters can be used to trace the distribution and the evolution of the entropy in the cosmic baryons, and ultimately to unveil the typical epoch and the source of the heating processes.

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