Journal
ASTROPHYSICAL JOURNAL
Volume 570, Issue 1, Pages 1-16Publisher
IOP PUBLISHING LTD
DOI: 10.1086/339568
Keywords
cosmological parameters; cosmology : theory; galaxies : clusters : general; X-rays : galaxies : clusters
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We discuss how the space of possible cosmological parameters is constrained by the angular diameter distance function D-A(z) as measured using the SZ/X-ray method, which combines the Sunyaev-Zeldovich (SZ) effect and X-ray brightness data for clusters of galaxies. New X-ray satellites and ground-based interferometers dedicated to SZ observations should soon lead to D-A(z) measurements limited by systematic rather than random error. We analyze the systematic and random error budgets to make a realistic estimate of the accuracy achievable in the determination of (Omega(m), Omega(A), h), the density parameters of matter and cosmological constant, and the dimensionless Hubble constant, using D-A(z) derived from the SZ/X-ray method and the position of the first Doppler peak in the cosmic microwave background fluctuations. We briefly study the effect of systematic errors. We find that Omega(m), Omega(A), and w are affected, but h is not, by systematic errors that grow with redshift. With as few as 70 clusters, each providing a measurement of D-A(z) with a 7% random and 5% systematic error, Omega(m) can be constrained to +/-0.2, Omega(A) to +/-0.2, and h to +/-0.11 ( all at 3sigma). We also estimate constraints for the alternative three-parameter set ( Omega(m), w, h), where w is the equation-of-state parameter. The measurement of D-A(z) provides constraints complementary to those from the number density of clusters in redshift space. A sample of 70 clusters (D-A measured with the same accuracy as before) combined with cluster evolution results (or a known matter density) can constrain w within +/-0.45 (at 3sigma). Studies of X-ray and SZ properties of clusters of galaxies promise an independent and powerful test for cosmological parameters.
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