Astronomy and Astrophysics – Astrophysics
Scientific paper
1997-03-17
Astronomy and Astrophysics
Astrophysics
Accepted for publication in ApJLetts. Also available at http://manaslu.astro.utoronto.ca/~carlberg/cnoc/nfw/ave.ps.gz
Scientific paper
10.1086/310801
The average mass density profile measured in the CNOC cluster survey is well described with the analytic form rho(r)=A/[r(r+a_rho)^2], as advocated on the basis on n-body simulations by Navarro, Frenk & White. The predicted core radii are a_rho=0.20 (in units of the radius where the mean interior density is 200 times the critical density) for an Omega=0.2 open CDM model, or a_rho=0.26 for a flat Omega=0.2 model, with little dependence on other cosmological parameters for simulations normalized to the observed cluster abundance. The dynamically derived local mass-to-light ratio, which has little radial variation, converts the observed light profile to a mass profile. We find that the scale radius of the mass distribution, 0.20<= a_rho <= 0.30 (depending on modeling details, with a 95% confidence range of 0.12-0.50), is completely consistent with the predicted values. Moreover, the profiles and total masses of the clusters as individuals can be acceptably predicted from the cluster RMS line-of-sight velocity dispersion alone. This is strong support of the hierarchical clustering theory for the formation of galaxy clusters in a cool, collisionless, dark matter dominated universe.
Abraham Robert
Carlberg Ray G.
Ellingson Erica E.
Gravel Pierre
Hartwick F. D. A.
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