Cross-correlating Planck CMB lensing with SDSS: Lensing-lensing and galaxy-lensing cross-correlations

Abstract

We present results from cross-correlating Planck CMB lensing maps with the Sloan Digital Sky Survey (SDSS) galaxy lensing shape catalog and BOSS galaxy catalogs. For galaxy position vs. CMB lensing cross-correlations, we measure the convergence signal around the galaxies in configuration space, using the BOSS LOWZ (z0.30) and CMASS (z0.57) samples. With fixed Planck 2015 cosmology, doing a joint fit with the galaxy clustering measurement, for the LOWZ (CMASS) sample we find a galaxy bias bg=1.750.04 (1.95 0.02) and galaxy-matter cross-correlation coefficient rcc=1.00.2 (0.8 0.1) using 20<rp<70h-1Mpc, consistent with results from galaxy-galaxy lensing. Using the same scales and including the galaxy-galaxy lensing measurements, we constrain m=0.2840.024 and relative calibration bias between the CMB lensing and galaxy lensing to be bγ=0.82+0.15-0.14. The combination of galaxy lensing and CMB lensing also allows us to measure the cosmological distance ratios (with zl0.3, zs0.5) R=Ds Dl,*D* Dl,s=2.680.29, consistent with predictions from the Planck 2015 cosmology ( R=2.35). We detect the galaxy position-CMB convergence cross-correlation at small scales, rp<1h-1Mpc, and find consistency with lensing by NFW halos of mass Mh1013h-1M. Finally, we measure the CMB lensing-galaxy shear cross-correlation, finding an amplitude of A=0.760.23 (zeff=0.35, θ<2) with respect to Planck 2015 predictions (1σ-level consistency). We do not find evidence for relative systematics between the CMB and SDSS galaxy lensing.