Dark Matter from Exponential Growth
Torsten Bringmann, Paul Frederik Depta, Marco Hufnagel, Joshua T. Ruderman, Kai Schmidt-Hoberg
Abstract
We propose a novel mechanism for the production of dark matter (DM) from a thermal bath based on the idea that DM particles χ can transform heat bath particles ψ: χψ→χχ. For a small initial abundance of χ, this leads to an exponential growth of the DM number density in close analogy to other familiar exponential growth processes in nature. We demonstrate that this mechanism complements freeze-in and freeze-out production in a generic way, opening new parameter space to explain the observed DM abundance, and we discuss observational prospects for such scenarios.
Topics & Concepts
PhysicsExponential growthExponential functionDark matterThermalProduction (economics)Exponential decaySpace (punctuation)Mechanism (biology)Parameter spaceStatistical physicsParticle physicsAnnihilationSpacetimeQuantum electrodynamicsParticle (ecology)Elementary particleDark fluidActive matterClassical mechanicsGrowth rateTheoretical physicsDark Matter and Cosmic PhenomenaCosmology and Gravitation TheoriesParticle physics theoretical and experimental studies