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Tail diversity from inflation

Sara Hooshangi, Mohammad Hossein Namjoo, Mahdiyar Noorbala

2023Journal of Cosmology and Astroparticle Physics29 citationsDOIOpen Access PDF

Abstract

Abstract The tail of the distribution of primordial fluctuations (corresponding to the likelihood of realization of large fluctuations) is of interest, from both theoretical and observational perspectives. In particular, it is relevant for the accurate evaluation of the primordial black hole (PBH) abundance. In this paper, we first analyze the non-perturbative δN formalism as a method to non-perturbatively estimate the probability distribution function (PDF) of primordial fluctuations, discuss its underlying assumptions and deal with several subtleties that may arise as a result of considering large fluctuations. Next, we employ the method to study several non-attractor single-field inflationary models as the simplest examples that may lead to the abundant production of PBHs. We conclude that the Gaussian extrapolation from linear perturbation theory may fail drastically to predict the likelihood of large fluctuations. Specifically, we show that a truncation of the tail, a power-law tail, a double-exponential tail, and a doubly peaked distribution can all be realized for the curvature perturbation in the single-field non-attractor models of inflation. We thus show that there is a diverse zoo of possible tails from inflation so that a model-dependent, non-perturbative study of the distribution of the primordial fluctuations seems inevitable concerning PBH abundance.

Topics & Concepts

PhysicsPrimordial black holeAttractorNon-GaussianityStatistical physicsCosmological perturbation theoryInflation (cosmology)Primordial fluctuationsSpectral densityPerturbation (astronomy)ExtrapolationTheoretical physicsAstrophysicsQuantum mechanicsCosmic microwave backgroundGalaxyAnisotropyStatisticsMathematicsSpin-flipMathematical analysisCosmology and Gravitation TheoriesBlack Holes and Theoretical Physics
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