Analytic time delays and H0 estimates for gravitational lenses

We study gravitational lens time delays for a general family of lensing potentials, which includes the popular singular isothermal elliptical potential and singular isothermal elliptical density distribution but allows general angular structure. Using a novel approach, we show that the time delay can be cast in a very simple form, depending only on the observed image positions. Including an external shear changes the time delay in proportion to the shear strength, and varying the radial profile of the potential changes the time delay approximately linearly. These analytic results can be used to obtain simple estimates of the time delay and the Hubble constant in observed gravitational lenses. The naive estimates for four of five time delay lenses show surprising agreement with each other and with local measurements of H-0; the complicated Q0957+561 system is the only outlier. The agreement suggests that it is reasonable to use simple isothermal lens models to infer H-0, although it is still important to check this conclusion by examining detailed models and by measuring more lensing time delays.