Z. Yang, D. Yao, M. Le Delliou, K. Wang

Abstract
If the Universe is endowed with cosmic anisotropy, it will have a preferred direction of expansion. By reconstructing the expansion history using a Gaussian process (GP), researchers can probe the cosmic anisotropy model-independently. In this paper, for the luminosity distance dL(z) reconstruction, we turn to the inverse distance ladder, where type Ia supernovae (SNIa) from the Pantheon+ sample determine relative distances, and strongly gravitationally lensed quasars from the H0LiCOW sample anchor these relative distances with some absolute distance measurements. By isolating the anisotropic information that could be carried by the Hubble constant H0 and obtaining constraints on the intrinsic parameter of SNIa, the absolute magnitude M=-19.2522-0.0649+0.0594 (at 68% CL), we find that dL(z) reconstructions from samples located in different regions of the galactic coordinate system are almost consistent with each other, while only a very weak preference for the cosmic anisotropy is found.

Keywords
Astrophysics - Cosmology and Nongalactic Astrophysics

European Physical Journal C - Particles and Fields
Volume 85, Number 339, Page 11
2025 March

>> ADS>> DOI