Clustering of luminous red galaxies II: small scale redshift space distortions

Abstract

This is the second 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 for 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, at small scales and in the line-of-sight. We show that a simple Kaiser model for the anisotropic 2-point correlation function in redshift space, convolved with a distribution of random peculiar velocities with an exponential form, can describe well the correlation of LRG at all scales. We show that to describe with accuracy the so called "fingers-of-God" (FOG) elongations in the radial direction, it is necessary to model the scale dependence of both bias b and the pairwise rms peculiar velocity σ12 with the distance. We show how both quantities can be inferred from the data. From r 10 Mpc/h to r 1 Mpc/h, both the bias and σ12 are shown to increase by a factor of two: from b=2 to b=4 and from σ12=400 to 800 Km/s. The later is in good agreement, within a 5 percent accuracy in the recovered velocities, with direct velocity measurements in dark matter simulations with m=0.25 and σ8=0.85.