Constraints on Ultra-Light Axions from the DESI DR1 Full Shape, Planck and ACT

Abstract

We present updated bounds on ultra-light axions (ULAs) as a subcomponent of dark matter, derived from the full-shape analysis of the DESI Data Release 1 galaxy power spectra combined with Cosmic Microwave Background (CMB) data from ACT and Planck. We focus on the mass window 10-32\,eV≤ ma ≤ 10-24\,eV, employing state-of-the-art analysis methods rooted in the Effective Field Theory of Large Scale Structure. For the smallest masses, our joint analysis with DESI improves over CMB-only constraints by more than a factor of 2, establishing the most stringent limits to date. For instance, for ma 10-29\,eV ULAs are constrained to be a fraction as small as 0.3\% of the total matter energy density. The DESI Luminous Red Galaxy sample shows a mild preference for an ULA subcomponent with ma ≈ 10-26\,eV, mirroring previous hints from BOSS, but this preference vanishes upon combination with CMB data. Probing the largest masses, ma10-25\,eV, in future studies will benefit from extending the data analysis to smaller scales, both for galaxy clustering and CMB lensing, but will also require concurrent improvements in the theoretical modeling.

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