Litcius/Paper detail

Relaxion dark matter from stochastic misalignment

Aleksandr Chatrchyan, Géraldine Servant

2023Journal of Cosmology and Astroparticle Physics18 citationsDOIOpen Access PDF

Abstract

Abstract Cosmological relaxation of the electroweak scale via Higgs-axion interplay, named as relaxion mechanism, provides a dynamical solution to the Higgs mass hierarchy. In the original proposal by Graham, Kaplan and Rajendran, the relaxion abundance today is too small to explain the dark matter of the universe because of the high suppression of the misalignment angle after inflation. It was then realised by Banerjee, Kim and Perez that reheating effects can displace the relaxion, thus enabling it to account for the dark matter abundance from the misalignment mechanism. However, this scenario is realised in a limited region of parameter space to avoid runaway. We show that in the regime where inflationary fluctuations dominate over the classical slow-roll, the “stochastic misalignment” of the field due to fluctuations can be large. We study the evolution of the relaxion after inflation, including the high-temperature scenario, in which the barriers of the potential shrink and destabilise temporarily the local minimum. We open new regions of parameter space where the relaxion can naturally explain the observed dark matter density in the universe, towards larger coupling, larger mass, larger mixing angle, smaller decay constant, as well as larger scale of inflation.

Topics & Concepts

PhysicsInflation (cosmology)AxionDark matterParticle physicsInflatonUniverseHiggs bosonPrimordial fluctuationsParameter spaceHierarchy problemCosmologyElectroweak interactionStandard Model (mathematical formulation)Theoretical physicsAstrophysicsCosmic microwave backgroundQuantum mechanicsHistoryArchaeologyStatisticsAnisotropyMathematicsGauge (firearms)Dark Matter and Cosmic PhenomenaCosmology and Gravitation TheoriesParticle physics theoretical and experimental studies