4.6 Article

Quantum loop effects on the power spectrum and constraints on primordial black holes

Journal

Publisher

IOP Publishing Ltd
DOI: 10.1088/1475-7516/2023/11/066

Keywords

cosmological perturbation theory; inflation; primordial black holes; physics of the early universe

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In this study, we provide a detailed analysis of the formation of Primordial Black Holes (PBHs) during Slow Roll (SR) to Ultra Slow Roll (USR) sharp transitions in the framework of single-field inflation using an effective field theory (EFT) approach. Our results show that the prospects for PBH formation are severely limited in a single-field inflationary framework when renormalizing the power spectrum to one loop order in P(X, phi) theories. We also demonstrate that the addition of an SR regime after USR before the end of inflation does not significantly change our conclusions. Moreover, our findings strictly rule out the possibility of generating large masses of PBHs from all possible models of single field inflation (canonical and non-canonical).
We present a detailed exposition on the prospects of the formation of Primordial Black Holes (PBHs) during Slow Roll (SR) to Ultra Slow Roll (USR) sharp transitions in the framework of single-field inflation. We use an effective field theory (EFT) approach in order to keep the analysis model-independent and applicable to both the canonical and non-canonical cases. We show in detail how renormalizing the power spectrum to one loop order in P(X, phi) theories severely limits the prospects for PBH formation in a single-field inflationary framework. We demonstrate that for the allowed range of effective sound speed, 1 < c(s) < 1.17, the consistency of one-loop corrected power spectrum leaves a small window for black hole masses, M-PBH similar to O(10(2)-10(3))gm to have sufficient e-foldings, triangle N-Total similar to O(54-59) for inflation. We confirm that adding an SR regime after USR before the end of inflation does not significantly alter our conclusions. Our findings for sharp transition strictly rule out the possibility of generating large masses of PBHs from all possible models of single field inflation (canonical and non-canonical). Our results are at least valid for the situation where constraints from the loop effects are computed using either Late-Time (LT) or Adiabatic-Wave function (AF) scheme followed by Power Spectrum (PS) renormalization schemes.

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