Testing Late Time Cosmic Acceleration with uncorrelated Baryon Acoustic Oscillations dataset

Abstract

Baryon Acoustic Oscillations (BAO) involve measuring the spatial distribution of galaxies to determine the growth rate of cosmic structure. We derive constraints on cosmological parameters from 17 uncorrelated BAO measurements that were collected from 333 published data points in the effective redshift range 0.106 ≤ z ≤ 2.36. We test the correlation of the subset using random covariance matrix. The model fit yields the cosmological parameters: m = 0.261 0.028 and = 0.733 0.021. Combining the BAO data with the Cosmic Chronometers data, the Pantheon Type Ia supernova and the Hubble Diagram of Gamma Ray Bursts and Quasars, the Hubble constant yields 69.85 1.27 km/sec/Mpc and the sound horizon distance gives: 146.1 2.15 Mpc. Beyond the model we test KCDM and wCDM. The spatial curvature is k = -0.076 0.012 and the dark energy equation of states: w = -0.989 0.049. We perform AIC test to compare the 3 models and see that scores best.