Non-gaussianities for primordial black hole formation

Taoso, Marco; Urbano, Alfredo

doi:10.1088/1475-7516/2021/08/016

Cited by 56 publications

(64 citation statements)

References 72 publications

(146 reference statements)

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“…Although it goes beyond the scope of the review, we should mention that one could also consider the effect of the inclusion of non-Gaussianities in Equation ( 81), which can have important consequences for the PBH abundance estimation. There are vast and extensive works that consider its impact on the thresholds and PBH abundances [103,107,108,[180][181][182][183][184][185][186][187][188][189][190][191][192][193][194][195], including some of them that have used numerical simulations following the basics shown in this review [196,197].…”

Section: Curvature Fluctuationsmentioning

confidence: 99%

PBH Formation from Spherically Symmetric Hydrodynamical Perturbations: A Review

Escrivà

2022

Universe

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Primordial black holes, which could have been formed in the very early Universe due to the collapse of large curvature fluctuations, are currently one of the most attractive and fascinating research areas in cosmology for their possible theoretical and observational implications. This review article presents the current results and developments on the conditions for primordial black hole formation from the collapse of curvature fluctuations in spherical symmetry on a Friedman–Lemaître–Robertson–Walker background and its numerical simulation. We review the appropriate formalism for the conditions of primordial black hole formation, and we detail a numerical implementation. We then focus on different results regarding the threshold and the black hole mass using different sets of curvature fluctuations. Finally, we present the current state of analytical estimations for the primordial black hole formation threshold, contrasted with numerical simulations.

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Section: Curvature Fluctuationsmentioning

confidence: 99%

PBH Formation from Spherically Symmetric Hydrodynamical Perturbations: A Review

Escrivà

2022

Universe

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“…Refs. [18,19] indeed find that during an ultra slow-roll phase sizable non-gaussianities of local type are generated. In the rest of this paper we will dub these non-gaussianities "primordial" to distinguish them from non-gaussianities that arise from the non-linear relation between curvature and density perturbations.…”

Section: Introductionmentioning

confidence: 84%

Solving peak theory in the presence of local non-gaussianities

Riccardi,

Taoso,

Urbano

2021

Preprint

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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 exponentially overestimate, 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.

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“…In section 2 and 3 we consider a three-stage single-field inflation with sharp transitions to different phases at η = η * and η = η * * , as given by figure 1, where δ ≡ φ/(H φ) is the rate-ofrolling of inflaton φ, and ∆ ≡ 3/2−ν is the scaling dimension of the curvature perturbation R in the late-time limit 2 fixed by the dilatation symmetry of the four-dimensional de Sitter background [49,53,54]. Such a piecewise simplification of the inflationary dynamics can also be found in [19,21,42]. ν is the dimensionless mass parameter of the mode functions of R. The first slow-roll parameters in Phase 2 and 3 are set to zero for simplicity (namely,…”

Section: The (Steepest) Growth Of Power Spectrummentioning

confidence: 91%

“…That enhanced primordial density fluctuations from inflationary models with large curvature perturbations on small scales is the mainstream scenario for PBH formation. PBHs from models of inflation, with targeting masses spanning in the range of 10 −17 -10 9 M , can be realized either in the single-field [3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21] or multi-field [22][23][24][25][26][27][28][29][30][31][32][33][34][35] framework.…”

Section: Introductionmentioning

confidence: 99%

Constant-rate inflation: primordial black holes from conformal weight transitions

2021

J. High Energ. Phys.

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Constant-rate inflation, including ultra-slow-roll inflation as a special case, has been widely applied to the formation of primordial black holes with a significant deviation from the standard slow-roll conditions at both the growing and decaying phases of the power spectrum. We derive analytic solutions for the curvature perturbations with respect to the late-time scaling dimensions (conformal weights) constrained by the dilatation symmetry of the de Sitter background and show that the continuity of conformal weights across different rolling phases is protected by the adiabatic condition of the inflaton perturbation. The temporal excitation of subleading states (with the next-to-lowest conformal weights), recorded as the “steepest growth” of the power spectrum, is triggered by the entropy production in the transition from the slow-roll to the constant-rate phases.

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Non-gaussianities for primordial black hole formation

Cited by 56 publications

References 72 publications

PBH Formation from Spherically Symmetric Hydrodynamical Perturbations: A Review

PBH Formation from Spherically Symmetric Hydrodynamical Perturbations: A Review

Solving peak theory in the presence of local non-gaussianities

Constant-rate inflation: primordial black holes from conformal weight transitions

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