Constraining amplitude and slope of the mass fluctuation spectrum using cluster baryon mass function
Abstract
We derive the baryon mass function for a complete sample of low-redshift clusters and argue that it is an excellent proxy for the total mass function if the ratio fb=Mb/Mtot in all clusters is close to its universal value, Omegab/OmegaM. Under this assumption, the baryon mass function can be used to constrain the amplitude and slope of the density fluctuations power spectrum on cluster scales. This method does not use observational determinations of the total mass and thus bypasses major uncertainties in the traditional analyses based on the X-ray temperature function. However, it is sensitive to possible systematic variations of the baryon fraction as a function of cluster mass. Adapting a weak dependence fb(M) suggested by observations and numerical simulations by Bialek et al., we derive sigma8=0.72+-0.04 and the shape parameter OmegaM*h=0.13+-0.07, in good agreement with a number of independent methods. We discuss the sensitivity of these values to other cosmological parameters and to different assumptions about variations in fb.
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