Clustering of luminous red galaxies I: large scale redshift space distortions

Abstract

This is the first paper of a series where we study the clustering of LRG galaxies in the latest spectroscopic SDSS data release, DR6, which has 75000 LRG galaxies covering over 1 Gpc3/h3 at 0.15<z<0.47. Here we focus on modeling redshift space distortions in , the 2-point correlation in separate line-of-sight and perpendicular directions, on large scales. % and away from the line-of-sight. We use large mock simulations to study the validity of models and errors. We show that errors in the data are dominated by a shot-noise term that is 40% larger than the Poisson error commonly used. We first use the normalized quadrupole for the whole sample (mean z=0.34) to estimate β=f(m)/b=0.34 0.03, where f(m) is the linear velocity growth factor and b is the linear bias parameter that relates galaxy to matter fluctuations on large scales. We next use the full plane to find 0m= 0.245 0.020 (h=0.72) and the biased amplitude b σ8 = 1.56 0.09. For standard gravity, we can combine these measurements to break degeneracies and find σ8=0.85 0.06, b=1.85 0.25 and f(m)=0.64 0.09. We present constraints for modified theories of gravity and find that standard gravity is consistent with data as long as 0.80<σ8<0.92. We also calculate the cross-correlation with WMAP5 and show how both methods to measure the growth history are complementary to constrain non-standard models of gravity. Finally, we show results for different redshift slices, including a prominent BAO peak in the monopole at different redshifts. (Abridged)