Litcius/Paper detail

Leak-in dark matter

Jared A. Evans, Cristian Gaidau, Jessie Shelton

2020Journal of High Energy Physics20 citationsDOIOpen Access PDF

Abstract

A bstract We introduce leak-in dark matter, a novel out-of-equilibrium origin for the dark matter (DM) in the universe. We provide a comprehensive and unified discussion of a minimal, internally-thermalized, hidden sector populated from an out-of-equilibrium, feeble connection to the hotter standard model (SM) sector. We emphasize that when this out-of-equilibrium interaction is renormalizable, the colder sector undergoes an extended phase of non-adiabatic evolution largely independent of initial conditions, which we dub “leak-in.” We discuss the leak-in phase in generality, and establish the general properties of dark matter that freezes out from a radiation bath undergoing such a leak-in phase. As a concrete example, we consider a model where the SM has an out-of-equilibrium B − L vector portal interaction with a minimal hidden sector. We discuss the interplay between leak-in and freezein processes in this theory in detail and demonstrate regions where leak-in yields the full relic abundance. We study observational prospects for B − L vector portal leak-in DM, and find that despite the requisite small coupling to the SM, a variety of experiments can serve as sensitive probes of leak-in dark matter. Additionally, regions allowed by all current constraints yield DM with self-interactions large enough to address small-scale structure anomalies.

Topics & Concepts

PhysicsDark matterStandard Model (mathematical formulation)Hidden sectorScalar field dark matterAstrophysicsTheoretical physicsPhase (matter)Particle physicsYield (engineering)Coupling (piping)Physics beyond the Standard ModelConnection (principal bundle)Weakly interacting massive particlesVariety (cybernetics)Hot dark matterCurrent (fluid)Dark fluidMixed dark matterCosmologyWarm dark matterDark Matter and Cosmic PhenomenaParticle physics theoretical and experimental studiesGalaxies: Formation, Evolution, Phenomena