H0LiCOW I. H0 Lenses in COSMOGRAIL's Wellspring: Program Overview

Strong gravitational lens systems with time delays between the multiple images are a powerful probe of cosmology and astrophysics. In particular, the time-delay distance from such a system is primarily sensitive to the Hubble constant that is key to probing dark energy, neutrino physics, and the spatial curvature of the Universe, as well as discovering new physics. We present H0LiCOW (H0 Lenses in COSMOGRAIL's Wellspring), a program that aims to measure H0 with <3.5% uncertainty in precision and accuracy from five lens systems (B1608+656, RXJ1131-1231, HE0435-1223, WFI2033-4723 and HE1104-1805). We have acquired or are in the process of acquiring (1) time delays through COSMOGRAIL and Very Large Array monitoring, (2) high-resolution Hubble Space Telescope imaging for the lens mass modeling, (3) wide-field imaging and spectroscopy to characterize the lens environment, and (4) moderate-resolution spectroscopy for obtaining the stellar velocity dispersion of the lenses and, thus, to further constrain our lens mass models. We expect to measure, with our data set for the five lenses, H0 to better than 3.5% in most cosmological models. Furthermore, we would measure spatial curvature Omegak to 0.004, w to 0.14, and the effective number of neutrino species to 0.2 (1-sigma uncertainties) when combined with current CMB experiments, which are a factor of ~15, ~2, and ~1.5 tighter than CMB alone. Our data set will further enable us to study the dark matter distribution of lens galaxies, the stellar initial mass function of the lens galaxies, and the co-evolution of supermassive black holes and their host (source) galaxies. This program will provide a foundation for extracting robustly cosmological distances from the hundreds of time-delay lenses that are expected to be discovered in current and future surveys.