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Neutrino portal to FIMP dark matter with an early matter era

Catarina Cosme, Maíra Dutra, Teng Ma, Yongcheng Wu, Litao Yang

2021Journal of High Energy Physics50 citationsDOIOpen Access PDF

Abstract

A bstract We study the freeze-in production of Feebly Interacting Massive Particle (FIMP) dark matter candidates through a neutrino portal. We consider a hidden sector comprised of a fermion and a complex scalar, with the lightest one regarded as a FIMP candidate. We implement the Type-I Seesaw mechanism for generating the masses of the Standard Model (SM) neutrinos by introducing three heavy neutrinos which are assumed to be degenerated, for simplicity, and are also responsible for mediating the interactions be- tween the hidden and the SM sectors. We assume that an early matter-dominated (EMD) era took place for some period between inflation and Big Bang Nucleosynthesis, making the Universe to expand faster than in the standard radiation-dominated era. In this case, the hidden and SM sectors are easily decoupled and larger couplings between FIMPs and SM particles are needed from the relic density constraints. In this context, we discuss the dynamics of dark matter throughout the modified cosmic history, evaluate the relevant constraints of the model and discuss the consequences of the duration of the EMD era for the dark matter production. Finally, we show that if the heavy neutrinos are not part of the thermal bath, this scenario becomes testable through indirect detection searches.

Topics & Concepts

PhysicsNeutrinoDark matterParticle physicsStandard Model (mathematical formulation)Seesaw mechanismHidden sectorSeesaw molecular geometryUniversePhysics beyond the Standard ModelSterile neutrinoFermionWeakly interacting massive particlesCosmic neutrino backgroundMassive particleBig Bang (financial markets)Hot dark matterLight dark matterWarm dark matterInflation (cosmology)Cosmic background radiationDark fluidCosmologyNeutrino oscillationMinimal Supersymmetric Standard ModelLightest Supersymmetric ParticleSupersymmetryParticle physics theoretical and experimental studiesDark Matter and Cosmic PhenomenaComputational Physics and Python Applications
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