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Production of thermal axions across the electroweak phase transition

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

2021Journal of Cosmology and Astroparticle Physics46 citationsDOIOpen Access PDF

Abstract

Abstract Light axions can potentially leave a cosmic background, just like neutrinos. We complete the study of thermal axion production across the electroweak scale by providing a smooth and continuous treatment through the two phases. Focusing on both flavor conserving and violating couplings to third generation quarks, we compute the amount of axions produced via scatterings and decays of thermal bath particles. We perform a model independent analysis in terms of axion effective couplings, and we also make predictions for specific microscopic QCD axion scenarios. This observable effect, parameterized as it is conventional by an effective number of additional neutrinos, is above the 1σ sensitivity of future CMB-S4 surveys. Moreover, if one assumes no large hierarchies among dimensionless axion couplings to standard model particles, future axion helioscopes will provide a complementary probe for the parameter region we study.

Topics & Concepts

AxionPhysicsParticle physicsElectroweak interactionQuantum chromodynamicsObservableDimensionless quantityThermalPhase transitionElectroweak scaleStandard Model (mathematical formulation)Strong CP problemPhysics beyond the Standard ModelSensitivity (control systems)Production (economics)TechnicolorParameter spaceScale (ratio)Phase (matter)Dark matterTheoretical physicsAstroparticle physicsDark Matter and Cosmic PhenomenaParticle physics theoretical and experimental studiesComputational Physics and Python Applications
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