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Dark radiation from the primordial thermal bath in momentum space

Francesco D’Eramo, Fazlollah Hajkarim, Alessandro Lenoci

2024Journal of Cosmology and Astroparticle Physics11 citationsDOIOpen Access PDF

Abstract

Abstract Motivated by the stunning projections for future CMB surveys, we evaluate the amount of dark radiation produced in the early Universe by two-body decays or binary scatterings with thermal bath particles via a rigorous analysis in momentum space. We track the evolution of the dark radiation phase space distribution, and we use the asymptotic solution to evaluate the amount of additional relativistic energy density parameterized in terms of an effective number of additional neutrino species Δ N eff . Our approach allows for studying light particles that never reach equilibrium across cosmic history, and to scrutinize the physics of the decoupling when they thermalize instead. We incorporate quantum statistical effects for all the particles involved in the production processes, and we account for the energy exchanged between the visible and invisible sectors. Non-instantaneous decoupling is responsible for spectral distortions in the final distributions, and we quantify how they translate into the corresponding value for Δ N eff . Finally, we undertake a comprehensive comparison between our exact results and approximated methods commonly employed in the existing literature. Remarkably, we find that the difference can be larger than the experimental sensitivity of future observations, justifying the need for a rigorous analysis in momentum space.

Topics & Concepts

PhysicsDark matterThermal radiationRadiationSpace (punctuation)Dark energyMomentum (technical analysis)AstronomyThermalCosmologyQuantum electrodynamicsAstrophysicsTheoretical physicsNuclear physicsQuantum mechanicsPhilosophyLinguisticsMeteorologyEconomicsFinanceDark Matter and Cosmic PhenomenaCosmology and Gravitation TheoriesGalaxies: Formation, Evolution, Phenomena
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