Litcius/Paper detail

Isocurvature constraints on scalar dark matter production from the inflaton

Marcos A. G. García, Mathias Pierre, Sarunas Verner

2023Physical review. D/Physical review. D.20 citationsDOIOpen Access PDF

Abstract

We investigate the production of a spectator scalar dark matter field that is directly coupled to the inflaton during inflation and reheating. We consider two specific inflationary potentials, namely the Starobinsky and T model of inflation, which satisfy the constraints on the scalar tilt, ${n}_{s}$, and tensor-to-scalar ratio, $r$, measured by the Planck satellite. Excitation of light scalar dark matter during inflation may result in large isocurvature perturbations, which can be avoided by inducing a sizable effective dark matter mass during the inflationary phase. For purely gravitational production, the Planck isocurvature constraints require the dark matter mass to be larger than the Hubble scale at horizon exit, with ${m}_{\ensuremath{\chi}}\ensuremath{\gtrsim}0.5{H}_{*}$. For small bare dark matter masses ${m}_{\ensuremath{\chi}}\ensuremath{\ll}{H}_{*}$, these constraints translate into a lower bound on the dark matter coupling to the inflaton. We argue that these constraints can be applied to a wide class of single-field slow-roll inflation models. We also derive isocurvature, dark matter abundance, and Lyman-$\ensuremath{\alpha}$ constraints on the direct coupling and bare dark matter mass.

Topics & Concepts

PhysicsInflatonDark matterParticle physicsPlanckScalar field dark matterInflation (cosmology)Scalar (mathematics)Dark fluidAstrophysicsDark energyCosmologyTheoretical physicsGeometryMathematicsCosmology and Gravitation TheoriesDark Matter and Cosmic PhenomenaGalaxies: Formation, Evolution, Phenomena