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Dark Radiation from Neutrino Mixing after Big Bang Nucleosynthesis

Daniel Aloni, Melissa Joseph, Martin Schmaltz, Neal Weiner

2023Physical Review Letters20 citationsDOIOpen Access PDF

Abstract

Light dark fermions can mass mix with the standard model (SM) neutrinos. As a result, through oscillations and scattering, they can equilibrate in the early universe. Interactions of the dark fermion generically suppress such production at high temperatures but enhance it at later times. We find that for a wide range of mixing angles and interaction strengths equilibration with SM neutrinos occurs at temperatures near the dark fermion mass. For masses below an MeV, this naturally occurs after nucleosynthesis and opens the door to a variety of dark sector dynamics with observable imprints on the CMB and large scale structure, and with potential relevance to the tensions in H_{0} and S_{8}.

Topics & Concepts

PhysicsNeutrinoBig Bang nucleosynthesisParticle physicsDark radiationFermionSterile neutrinoNucleosynthesisDark matterAstrophysicsMixing (physics)Cosmic microwave backgroundObservableUniverseCosmologyNuclear physicsNeutrino oscillationDark energyStarsAnisotropyQuantum mechanicsCosmology and Gravitation TheoriesDark Matter and Cosmic PhenomenaParticle physics theoretical and experimental studies
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