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Dark matter stability and Dirac neutrinos using only standard model symmetries

Cesar Bonilla, Salvador Centelles Chuliá, Ricardo Cepedello, Eduardo Peinado, Rahul Srivastava

2020Physical review. D/Physical review. D.70 citationsDOIOpen Access PDF

Abstract

We provide a generic framework to obtain stable dark matter along with naturally small Dirac neutrino masses generated at the loop level. This is achieved through the spontaneous breaking of the global $U(1{)}_{B\ensuremath{-}L}$ symmetry already present in the standard model. The $U(1{)}_{B\ensuremath{-}L}$ symmetry is broken down to a residual even ${\mathcal{Z}}_{n}$ ($n\ensuremath{\ge}4$) subgroup. The residual ${\mathcal{Z}}_{n}$ symmetry simultaneously guarantees dark matter stability and protects the Dirac nature of neutrinos. The $U(1{)}_{B\ensuremath{-}L}$ symmetry in our setup is anomaly free and can also be gauged in a straightforward way. Finally, we present an explicit example using our framework to show the idea in action.

Topics & Concepts

PhysicsNeutrinoStandard Model (mathematical formulation)Dark matterDirac (video compression format)Symmetry (geometry)Anomaly (physics)Particle physicsHomogeneous spacePhysics beyond the Standard ModelStability (learning theory)Quantum mechanicsMathematicsHistoryMachine learningGauge (firearms)Computer scienceArchaeologyGeometryParticle physics theoretical and experimental studiesNeutrino Physics ResearchDark Matter and Cosmic Phenomena
Dark matter stability and Dirac neutrinos using only standard model symmetries | Litcius