Normalization of the Matter Power Spectrum via Higher-Order Angular Correlations of Luminous Red Galaxies

Abstract

We present a novel technique to measure σ8, by measuring the dependence of the second-order bias of a density field on σ8 using two separate techniques. Each technique employs area-averaged angular correlation functions (ωN), one relying on the shape of ω2, the other relying on the amplitude of s3 (s3 =ω3/ω22). We confirm the validity of the method by testing it on a mock catalog drawn from Millennium Simulation data and finding σ8measured- σ8true = -0.002 0.062. We create a catalog of photometrically selected LRGs from SDSS DR5 and separate it into three distinct data sets by photometric redshift, with median redshifts of 0.47, 0.53, and 0.61. Measurements of c2, and σ8 are made for each data set, assuming flat geometry and WMAP3 best-fit priors on m, h, and . We find, with increasing redshfit, c2 = 0.09 0.04, 0.09 0.05, and 0.09 0.03 and σ8 = 0.78 0.08, 0.80 0.09, and 0.80 0.09. We combine these three consistent σ8 measurements to produce the result σ8 = 0.79 0.05. Allowing the parameters m, h, and to vary within their WMAP3 1σ error, we find that the best-fit σ8 does not change by more than 8% and we are thus confident our measurement is accurate to within 10%. We anticipate that future surveys, such as Pan-STARRS, DES, and LSST, will be able to employ this method to measure σ8 to great precision, and will serve as an important check, complementary, on the values determined via more established methods.