Litcius/Paper detail

Minimal seesaw extension for neutrino mass and mixing, leptogenesis and dark matter: FIMPzillas through the right-handed neutrino portal

Marco Chianese, Bowen Fu, Stephen F. King

2020Journal of Cosmology and Astroparticle Physics40 citationsDOIOpen Access PDF

Abstract

Abstract We propose a minimal seesaw extension to simultaneously account for realistic neutrino mass and mixing, the baryon asymmetry of the Universe via leptogenesis and a viable dark matter relic density, in which two right-handed neutrinos are coupled to a dark Dirac fermion and complex scalar field, both charged under a global U(1) D symmetry. As a concrete example, we consider the Littlest Seesaw model which describes neutrino mass and mixing and accounts for leptogenesis, thereby fixing the neutrino Yukawa couplings and right-handed neutrino masses. By considering the freeze-in production mechanism of dark matter, we explore the parameter space of right-handed neutrino portal couplings and dark particle masses which give the correct dark matter relic abundance, focussing on the case of a superheavy Dirac fermion dark matter particle, with a mass around 10 10 GeV. Such a FIMPzilla can provide a successful explanation of the dark matter relic abundance, with its production reliant on neutrino Yukawa couplings over much of the parameter space, depending on the assumed dark particle masses, and the reheat temperature.

Topics & Concepts

PhysicsLeptogenesisParticle physicsNeutrinoSeesaw molecular geometryDark matterBaryon asymmetryYukawa potentialSeesaw mechanismSterile neutrinoNeutrino oscillationLepton numberPhysics beyond the Standard ModelMass generationStandard Model (mathematical formulation)Dark fluidCold dark matterFermionScalar field dark matterHot dark matterDirac fermionDirac (video compression format)Warm dark matterUniverseScalar (mathematics)LeptonParameter spaceSolar neutrinoParticle physics theoretical and experimental studiesDark Matter and Cosmic PhenomenaComputational Physics and Python Applications