A New Model of the Gravitational Lens 0957+561 and a Limit on the Hubble Constant
Abstract
We present a simple mass model for the lensing galaxy in the gravitationally lensed quasar 0957+561. The model is a generalization of the singular isothermal sphere and includes a core radius, rc, and a power-law index, η, defined such that mass increases as rη at large radius. We approximate the galaxy cluster surrounding the lensing galaxy with a quadratic potential described by its convergence and shear γ. We fit the model to a recent high resolution VLBI map of the two images of 0957+561. We obtain a tight constraint on the radial index, 1.07 < η <1.18, which means that the lens galaxy is nearly isothermal with increasing mass-to-light ratio out to 15 h-1 kpc. We also obtain an upper limit on the core radius, rc < 330 h-1 pc. We use the model to calculate the Hubble constant H0 as a function of the time delay τBA between the two images: H0 = ( 82.5+5.9 -3.0 ) (1 - ) ( τBA/1.1 \, yr )-1 km/s/Mpc. Once τBA is measured, this will provide an upper bound on H0 since cannot be negative. In addition, the model degeneracy due to can be eliminated if the one-dimensional velocity dispersion σ of the lensing galaxy is measured. We then have H0 = ( 82.5+8.7 -5.6 ) (σ / 322\, km/s)2 ( τBA /1.1 \, yr )-1 km/s/Mpc. We investigate the effects of ellipticity in the lensing galaxy and clumpiness in the lensing cluster and find that these cause little change in our results.
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