Evidence for tidal stripping of dark matter halos in massive cluster-lenses
Abstract
In this letter, we present the results of our study of galaxy-galaxy lensing in massive cluster-lenses spanning z = 0.17 to 0.58, utilizing high-quality archival Hubble Space Telescope ( HST) data. Local anisotropies in the shear maps are assumed to arise from dark matter substructure within these clusters. Associating the substructure with bright early-type cluster galaxies, we quantify the properties of typical L* cluster members in a statistical fashion. The fraction of total mass associated with individual galaxies within the inner regions of these clusters ranges from 10--20% implying that the bulk of the dark matter in massive lensing clusters is smoothly distributed. Looking at the properties of the cluster galaxies, we find strong evidence (>3-σ significance) that a fiducial early-type L galaxy in these clusters has a mass distribution that is tidally truncated compared to equivalent luminosity galaxies in the field. In fact, we exclude field galaxy scale dark halos for these cluster early-types at >10-σ significance. We compare the tidal radii obtained from this lensing analysis with the central density of the cluster potentials and find a correlation which is in excellent agreement with theoretical expectations of tidal truncation: [rt*] (-0.6 0.2) [0].
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