Litcius/Paper detail

Solving peak theory in the presence of local non-gaussianities

Flavio Riccardi, Marco Taoso, Alfredo Urbano

2021Journal of Cosmology and Astroparticle Physics38 citationsDOIOpen Access PDF

Abstract

We compute the probability density distribution of maxima for a scalar random field in the presence of local non-gaussianities. The physics outcome of this analysis is the following. If we focus on maxima whose curvature is larger than a certain threshold for gravitational collapse, our calculations illustrate how the fraction of the Universe's mass in the form of primordial black holes (PBHs) changes in the presence of local non-gaussianities. We find that previous literature on the subject overestimates, by many orders of magnitude, the impact of local non-gaussianities on the PBH abundance. We explain the origin of this discrepancy, and conclude that, in realistic single-field inflationary models with ultra slow-roll, one can obtain the same abundance found with the gaussian approximation simply changing the peak amplitude of the curvature power spectrum by no more than a factor of two. We comment about the relevance of non-gaussianities for second-order gravitational waves.

Topics & Concepts

PhysicsCurvatureMaximaSpectral densityPrimordial black holeAmplitudeStatistical physicsGravitationGaussianScalar (mathematics)Non-GaussianityGravitational collapseMaxima and minimaScalar curvatureScalar fieldProbability distributionField (mathematics)Effective field theoryGaussian random fieldClassical mechanicsDistribution (mathematics)Inflation (cosmology)CosmologyGravitational fieldQuantum electrodynamicsMass distributionProbability density functionGaussian curvatureSlow rollDensity contrastPerturbation theory (quantum mechanics)Range (aeronautics)Field theory (psychology)Cosmology and Gravitation TheoriesGalaxies: Formation, Evolution, PhenomenaPulsars and Gravitational Waves Research