The Structure and Dynamics of Luminous and Dark Matter in the Early-Type Lens Galaxy of 0047-281 at z=0.485

Abstract

We have measured the kinematic profile of the early-type (E/S0) lens galaxy in the system 0047-281 (z=0.485) with the Echelle Spectrograph and Imager (ESI) on the W.M. Keck--II Telescope, as part of the Lenses Structure and Dynamics (LSD) Survey. The central velocity dispersion is σ=229 15 , and the dispersion profile is nearly flat to beyond one effective radius (Re). Surface photometry of the lens galaxy is measured from Hubble Space Telescope images. From the offset from the local Fundamental Plane (FP), we measure an evolution of the effective mass-to-light ratio of M/LB=-0.370.06 between z=0 and z=0.485, consistent with the observed evolution of field E/S0 galaxies. (We assume h65=1, m=0.3 and =0.7 throughout.) Gravitational lens models provide a mass of M=(4.060.20)× 1011 h65-1M inside the Einstein radius of R E=(8.700.07) h65-1 kpc. This allows us to break the degeneracy between velocity anisotropy and density profile, typical of dynamical models for E/S0 galaxies. We find that constant M/L model, even with strongly tangential anisotropy of the stellar velocity ellipsoid, are excluded at >99.9%CL. The total mass distribution inside R E can be described by a single power-law density profile, t r-γ', with an effective slope γ'=1.90+0.05-0.23 (68%CL; 0.1 systematic error). Two-component models yield an upper limit (68% CL) of γ 1.55(1.12) on the power-law slope of the dark-matter density profile and a projected dark-matter mass fraction of 0.41(0.54)+0.15-0.05(+0.09-0.06) (68% CL) inside R E, for Osipkov--Merritt models with anisotropy radius ri=∞(Re).

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