Sensitivity of Galaxy Cluster Morphologies to Omega0 and P(k)

Abstract

We examine the sensitivity of the spatial morphologies of galaxy clusters to Omega0 and P(k) using high-resolution N-body simulations with large dynamic range. Variants of the standard CDM model are considered having different spatial curvatures, SCDM (Omega0=1), OCDM (Omega0=0.35), LCDM (Omega0=0.35, lambda0=0.65), and different normalizations, sigma8. We also explore critical density models with different spectral indices, n, of the scale-free power spectrum, P(k) propto kn. Cluster X-ray morphologies are quantified with power ratios (PRs), where we take for the X-ray emissivity jgas propto rho2DM, which we argue is a suitable approximation for analysis of PRs. We find that Omega0 primarily influences the means of the PR distributions whereas the power spectrum (n and sigma8) primarily affects their variances: log10(P3/P0) is the cleanest probe of Omega0 since its mean is very sensitive to Omega0 but very insensitive to P(k). The PR means easily distinguish the SCDM and OCDM models, while the SCDM and LCDM means show a more modest, but significant, difference (3 sigma). The OCDM and LCDM models are largely indistinguishable in terms of the PRs. Finally, we compared these models to a sample of ROSAT clusters and find that the cluster morphologies strongly disfavor Omega0=1, CDM while favoring low density, CDM models with or without a cosmological constant.

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