Litcius/Paper detail

Cosmic imprints of XENON1T axions

Fernando Arias-Aragón, Francesco D'Eramo, Ricardo Z. Ferreira, Luca Merlo, Alessio Notari

2020Journal of Cosmology and Astroparticle Physics30 citationsDOIOpen Access PDF

Abstract

The recent electron recoil excess observed by XENON1T has a possible interpretation in terms of solar axions coupled to electrons. If such axions are still relativistic at recombination they would also leave a cosmic imprint in the form of an additional radiation component, parameterized by an effective neutrino number $\Delta N_\text{eff}$. We explore minimal scenarios with a detectable signal in future CMB surveys: axions coupled democratically to all fermions, axion-electron coupling generated radiatively, the DFSZ framework for the QCD axion. The predicted $\Delta N_\text{eff}$ is larger than $0.03-0.04$ for all cases, close to the $2\sigma$ forecasted sensitivity of CMB-S4 experiments. This opens the possibility of testing with cosmological observations the solar axion interpretation of the XENON1T excess.

Topics & Concepts

PhysicsAxionCosmic microwave backgroundParticle physicsAstrophysicsNeutrinoCosmic background radiationCoupling (piping)Quantum chromodynamicsCOSMIC cancer databaseRecoilSolar neutrinoCosmic rayDark matterElectronInterpretation (philosophy)Hubble's lawAstroparticle physicsParameterized complexityBackground radiationPhysics beyond the Standard ModelDark Matter and Cosmic PhenomenaCosmology and Gravitation TheoriesAstrophysics and Cosmic Phenomena
Cosmic imprints of XENON1T axions | Litcius