Hyper Suprime-Cam Year 3 Results: Cosmology from Galaxy Clustering and Weak Lensing with HSC and SDSS using the Emulator Based Halo Model

Abstract

We present cosmology results from a blinded joint analysis of cosmic shear, (), galaxy-galaxy weak lensing, \!(R), and projected galaxy clustering, w p(R), measured from the Hyper Suprime-Cam three-year (HSC-Y3) shape catalog and the Sloan Digital Sky Survey (SDSS) DR11 spectroscopic galaxy catalog - a 3×2pt cosmology analysis. We define luminosity-cut samples of SDSS galaxies to serve as the tracers of w p and as the lens samples for \! in three spectroscopic redshift bins spanning the range 0.15<z<0.7. For the and \! measurements, we use a single source sample over 416 deg2, selected from HSC-Y3 based on having photometric redshifts (photo-z) greater than 0.75. For cosmological parameter inference, we use Dark Emulator combined with a halo occupation distribution prescription to model w p and \! down to quasi-nonlinear scales. In our baseline analysis we employ an uninformative flat prior of the residual photo-z error to model a residual bias in the mean redshift of HSC source galaxies. We obtain a robust constraint on the cosmological parameters for the flat model: S8=σ8( m/0.3)0.5=0.763+0.040-0.036 (68% C.I.), or the best-constrained parameter given by S'8=σ8( m/0.3)0.22=0.721 0.028, determined with about 4% fractional precision. Our HSC-Y3 data exhibits about 2.5σ tension with the Planck inferred S8 value for the model, and hints at a non-zero residual photo-z bias implying that the true mean redshift of the HSC galaxies at z 0.75 is higher than that implied by the original photo-z estimates.