Properties of galaxy dark matter halos from weak lensing

Abstract

We present the results of a study of the average mass profile around galaxies using weak gravitational lensing. We use 45.5 deg2 of RC band imaging data from the Red-Sequence Cluster Survey (RCS) and define a sample of 1.2× 105 lenses with 19.5<RC<21, and a sample of 1.5× 106 background galaxies with 21.5<R<24. We constrain the power law scaling relations between the B-band luminosity and the mass and size of the halo, and find that the results are in excellent agreement with observed luminosity-line-width relations. Under the assumption that the luminosity does not evolve with redshift, the best fit NFW model yields a mass M200=(8.80.7)× 1011 h-1 Msun and a scale radius rs=16.7+3.7-3.0 h-1 kpc for a galaxy with a fiducial luminosity of . The latter result is in excellent agreement with predictions from numerical simulations for a halo of this mass. We also observe a signficant anisotropy of the lensing signal around the lenses, implying that the halos are flattened and aligned with the light distribution. We find an average projected) halo ellipticity of <e halo>=0.20+0.04-0.05, in fair agreement with results from numerical simulations of CDM. Alternative theories of gravity (without dark matter) predict an isotropic lensing signal, which is excluded with 99.5% confidence. Hence, our results provide strong support for the existence of dark matter.

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