The Dark Matter, Gas and Galaxy Distributions in Abell 2218: A Weak Gravitational Lensing and X-ray Analysis

Abstract

We report on the detection of dark matter in the cluster Abell 2218 using the weak gravitational distortion of background galaxies. We find a highly significant, coherent detection of the distortion in the images of the background galaxies. The inferred 2D mass distribution has a peak that is coincident with the optical and X-ray centroid. The qualitative distributions of the cluster light, the X-ray emission and the dark matter are similar and the projected total mass, gas, and light surface densities are consistent with a r-1 profile at distance of r > 180 from the cluster cD galaxy. Using the weak lensing technique, we determine a lower bound for the total mass in A2218 of (3.9 0.7) × 1014~h-1~M within a fiducial aperture of radius 0.4~h-1Mpc. The associated cluster mass-to-light ratio is (440 80)~h~M/L B. The mass estimated by the weak lensing method is consistent with that inferred from the X-ray data under the assumption of hydrostatic equilibrium and we derive an upper bound for the gas-to-total mass ratio at 400~h-1kpc of Mgas/Mtot = (0.04 0.02)h-3/2.

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