Testing a varying-$\Lambda$ model for dark energy within Co-varying Physical Couplings framework
Abstract
The Co-varying Physical Couplings (CPC) framework is a modified gravity set up assuming Einstein Field Equations wherein the quantities are promoted to space-time functions. Bianchi identity and the requirement of stress-energy tensor conservation entangle the possible variations of the couplings , which are forced to co-vary as dictated by the General Constraint (GC). In this paper we explore a cosmological model wherein , and are functions of the redshift respecting the GC of the CPC framework. We assume a linear parametrization of in terms of the scale factor . We use the ansatz with constant to deduce the functional forms of and . We show that this varying- model fits SNe Ia data and data with . The model parameters can be constrained to describe dark energy at the background level.
Cite
@article{arxiv.2204.10764,
title = {Testing a varying-$\Lambda$ model for dark energy within Co-varying Physical Couplings framework},
author = {R. R. Cuzinatto and R. P. Gupta and R. F. L. Holanda and J. F. Jesus and S. H. Pereira},
journal= {arXiv preprint arXiv:2204.10764},
year = {2022}
}
Comments
14 pages plus references and figures; v2: matches the published version