Measuring fσ8 and BAO scale in the Local Universe: a joint real and redshift space analysis from CosmicFlows-4++

Abstract

The large-scale clustering of galaxies encodes both geometric and dynamical information about the Universe. The Baryon Acoustic Oscillations (BAO) phenomenon provides a standard ruler that constrains the cosmic expansion history, while Redshift Space Distortions (RSD) probe the growth of structure through the peculiar velocity field. In this work, we present a joint analysis of BAO and growth rate parameter, fσ8, in the Local Universe out to z = 0.1, using the 65,331 galaxy distances of CosmicFlows-4++ database. A distinctive property of this catalogue is the availability of real space galaxy positions in addition to the redshift space coordinates. Fitting an empirical model to the measurements we obtain rBAOreal = 132 8\,h-1\, Mpc in real space, and rBAOz = 139 7\,h-1\, Mpc in redshift space, at redshift z = 0.07. Modeling the enhancement of the correlation function within the Kaiser formalism, we derive a constraint on the growth rate parameter fσ8 = 0.344 0.105. This analysis demonstrates how the combination of real and redshift space clustering measurements enables a simultaneous probe of important observables of the large-scale structure. Their joint detection in the same dataset, therefore, provides a self consistent view of the structure and evolution of the Local Universe. This study may be used for consistency analyses of upcoming surveys, as DESI and 4MOST, that will also provide data in both real and redshift space.