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Ultra-slow-roll inflation with quantum diffusion

Chris Pattison, Vincent Vennin, David Wands, Hooshyar Assadullahi

2021Journal of Cosmology and Astroparticle Physics103 citationsDOIOpen Access PDF

Abstract

Abstract We consider the effect of quantum diffusion on the dynamics of the inflaton during a period of ultra-slow-roll inflation. We extend the stochastic-δ𝒩 formalism to the ultra-slow-roll regime and show how this system can be solved analytically in both the classical-drift and quantum-diffusion dominated limits. By deriving the characteristic function, we are able to construct the full probability distribution function for the primordial density field. In the diffusion-dominated limit, we recover an exponential tail for the probability distribution, as found previously in slow-roll inflation. To complement these analytical techniques, we present numerical results found both by very large numbers of simulations of the Langevin equations, and through a new, more efficient approach based on iterative Volterra integrals. We illustrate these techniques with two examples of potentials that exhibit an ultra-slow-roll phase leading to the possible production of primordial black holes.

Topics & Concepts

PhysicsInflatonStatistical physicsFormalism (music)Probability density functionNon-GaussianityQuantumExponential functionInflation (cosmology)Complement (music)Probability distributionSlow rollQuantum fluctuationPrimordial black holeDistribution functionPhase spaceBrownian motionCosmological perturbation theoryCosmologyStochastic processQuantum mechanicsAnomalous diffusionDiffusionLangevin dynamicsClassical mechanicsLangevin equationFunction (biology)Spectral densityTheoretical physicsQuantum dynamicsExponential growthPhase transitionDark matterCosmology and Gravitation TheoriesPulsars and Gravitational Waves ResearchHigh-Energy Particle Collisions Research