Testing cosmic anisotropy with Pade approximation and Pantheon+ sample

Abstract

Cosmography can be used to constrain the kinematics of universe in a model-independent way. In this work, we attempted to combine the Pad e approximations with the latest Pantheon+ sample for testing cosmological principle. Based on the Pad e approximations, we first gave the cosmographic constraints on the different order polynomials including third-order (Pad e(2,1)), fourth-order (Pad e(2,2)) and fifth-order (Pad e(3,2)). Based on the Pad e(2,1) (j0 = 1) polynomial and hemisphere comparison (HC) method, we tested the cosmological principle and found the preferred directions of cosmic anisotropy, such as (l, b) = (304.6-37.4+51.4, -18.7-20.3+14.7) and (311.1-8.4+17.4, -17.53-7.7+7.8) for q0 and H0, respectively. These two directions are consistent with each other in 1σ confidence level, but the corresponding results of statistical isotropy analyses including Isotropy and Isotropy with real positions (RP) are quite different. The statistical significance of H0 are stronger than that of q0, i.e., 4.75σ and 4.39σ for the Isotropy and Isotropy with RP respectively. Reanalysis with fixed q0 = -0.55 (corresponds to m = 0.30) gives similar results. Overall, our model-independent results provide clear indications for a possible cosmic anisotropy, which must be taken seriously. Further test is needed to better understand this signal.