Constraints on Omegam, OmegaL, and Sigma8, from Galaxy Cluster Redshift Distributions
Abstract
We show that the counts of galaxy clusters in future deep cluster surveys can place strong constraints on the matter density, Omegam, the vacuum energy density, OmegaL, and the normalization of the matter power spectrum, sigma8. Degeneracies between these parameters are different from those in studies of either high--redshift type Ia Supernovae (SNe), or cosmic microwave background (CMB) anisotropies. Using a mass threshold for cluster detection expected to be typical for upcoming SZE surveys, we find that constraints on Omegam and sigma8 at the level of roughly 5% or better can be expected, assuming redshift information is known at least to z=0.5 and in the absence of significant systematic errors. Without information past this redshift, OmegaL is constrained to 25%. With complete redshift information, deep (Mlim= 1014h-1Msun), relatively small solid angle (roughly 12 deg2) surveys can further constrain OmegaL to an accuracy of 15%, while large solid angle surveys with ground-based large-format bolometer arrays could measure OmegaL to a precision of 4% or better.
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