Interpreting Cosmic Birefringence and DESI Data with Evolving Axion in $\Lambda$CDM
Abstract
Recent cosmological observations have revealed growing tensions with the standard CDM model, including indications of isotropic cosmic birefringence and deviations from in the dark energy equation of state, as suggested by DESI and supernova measurements. In this paper, we point out that such deviations can arise even from a subdominant energy density component. We then propose a unified framework based on a dynamical axion field that simultaneously accounts for both anomalies, providing a simple and natural extension of the standard CDM model. In our scenario, the axion field with , where is the current Hubble constant, induces a nonzero rotation of the CMB polarization plane and modifies the present-day dark energy equation of state. This framework accommodates recent observational data with natural parameter choices, even for a string axion with a decay constant of order GeV.
Cite
@article{arxiv.2503.18924,
title = {Interpreting Cosmic Birefringence and DESI Data with Evolving Axion in $\Lambda$CDM},
author = {Shota Nakagawa and Yuichiro Nakai and Yu-Cheng Qiu and Masaki Yamada},
journal= {arXiv preprint arXiv:2503.18924},
year = {2025}
}
Comments
Fig.1 is added. Corresponds to the published version