Testing the Hubble law with Pantheon+

Abstract

The Hubble law (HL) governs the low-redshift (low-z) evolution of the distance of an object. However, there is a lack of an investigation of its validity and effective radius for a long time, since the low-z background data with a high precision is scarce. The latest Type Ia supernovae sample Pantheon+ having a significant increase of low-z data provides an excellent opportunity to test the HL. We propose a generalized HL and implement the first modern test of the HL with Pantheon+. We obtain the constraint on the deviation parameter α=1.001180.00044, confirm the validity of linear HL with a 0.04\% precision and give the transition redshift zt=0.03 and luminosity distance DL,t=123.131.75 Mpc, which means that HL holds when z<0.03 and breaks down at a distance of DL>123.13 Mpc. Comparing the ability of Type Ia supernovae and HII galaxies in testing the HL, we stress the uniqueness and strong power of Type Ia supernovae in probing the low-z physics.