The consistency test on the cosmic evolution

Abstract

We propose a new and robust method to test the consistency of the cosmic evolution given by a cosmological model. It is realized by comparing the combined quantity rdCMB/DVSN, which is derived from the comoving sound horizon rd from cosmic microwave background (CMB) measurements and the effective distance DV derived from low-redshift Type-Ia supernovae (SNe Ia) data, with direct and independent rd/DV obtained by baryon acoustic oscillation (BAO) measurements at median redshifts. We apply this test method for the Lambda-CDM and wCDM models, and investigate the consistency of the derived value of rd/DV from Planck 2015 and the SN Ia data sets of Union2.1 and JLA (z<1.5), and the rd/DV directly given by BAO data from six-degree-field galaxy survey (6dFGS), Sloan Digital Sky Survey Data Release 7 Main Galaxy Survey (SDSS-DR7 MGS), DR11 of SDSS-III, WiggleZ and Ly-alpha forecast surveys from Baryon Oscillation Spectroscopic Data (BOSS) DR-11 over 0.1<z<2.36. We find that rdCMB/DVSN for both non-flat Lambda-CDM and flat wCDM models with Union2.1 and JLA data are well consistent with the BAO and CMB measurements within 1-sigma CL. Future surveys will further tight up the constraints significantly, and provide stronger test on the consistency.