The Sunyaev-Zel'dovich angular power spectrum as a probe of cosmological parameters

Abstract

The angular power spectrum of the SZ effect, Cl, is a powerful probe of cosmology. It is easier to detect than individual clusters in the field, is insensitive to observational selection effects and does not require a calibration between cluster mass and flux, reducing the systematic errors which dominate the cluster-counting constraints. It receives a dominant contribution from cluster region between 20-40% of the virial radius and is thus insensitive to the poorly known gas physics in the cluster centre, such as cooling or (pre)heating. In this paper we derive a refined analytic prediction for Cl using the universal gas-density and temperature profile and the dark-matter halo mass function. The predicted Cl has no free parameters and fits all of the published hydrodynamic simulation results to better than a factor of two around l=3000. We find that Cl scales as (sigma8)7 times (Omegab h)2 and is almost independent of all of the other cosmological parameters. This differs from the local cluster abundance studies, which give a relation between sigma8 and Omegam. We also compute the covariance matrix of Cl using the halo model and find a good agreement relative to the simulations. We estimate how well we can determine sigma8 with sampling-variance-limited observations and find that for a several-square-degree survey with 1-2 arcminute resolution one should be able to determine sigma8 to within a few percent, with the remaining uncertainty dominated by theoretical modelling. If the recent excess of the CMB power on small scales reported by the CBI experiment is due to the SZ effect, then we find sigma8(Omegab h/0.029)0.3 = 1.04 +- 0.12 at the 95% confidence level (statistical) and with a residual 10% systematic (theoretical) uncertainty.

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