Measuring the distances to quasars at high redshifts with strong lensing

Abstract

Strongly lensed quasars with time-delay measurements are well known to provide the "time-delay distances" D t=(1+zL)DLDS/DLS and the angular diameter distances to lens galaxies DL. These two kinds of distances give stringent constraints on cosmological parameters. In this work, we explore a different use of time-delay observables: Under the assumption of a flat Universe, strong lensing observations can accurately measure the angular diameter distances to sources DS. The corresponding redshifts of quasars may be up to zS4 according to the forecast. The high-redshift distances would sample the Hubble diagram between SNe Ia and CMB, cosmological-model-independently providing direct information on the evolution of the nature of our Universe, for example, the dark energy Equation-of-State parameter w(z). We apply our method to the existing lensing system SDSS 1206+4332 and get DS=2388-978+2632Mpc at zS=1.789. We also make a forecast for the era of LSST. The uncertainty of DS depends on the redshifts of lens and source, the uncertainties of D t and DL, and the correlation between D t and DL as well. Larger correlation would result in tighter DS determination.