Abstract
We revisit models of natural inflation and show that the single-field effective theory described by the potential $V(a)\sim \cos\frac{a}{f}$ breaks down as the inflaton $a$ makes large-field excursions, even for values of $f$ smaller than the Planck scale. In order to remedy the problem, we modify the potential in order to account for the heavy degrees of freedom (hadrons) that become intertwined with the light inflaton as the latter rolls down its potential. By embedding the low energy degrees of freedom into an ultraviolet complete gauge theory, we argue that the intertwining between the two scales can be explained as the result of a generalized mixed 't Hooft anomaly between the discrete chiral symmetry and background fractional fluxes in the baryon number, color, and flavor directions. Further, we study the multi-field inflation and show that it entertains rich dynamics. Inflating near the hilltop excites the hadrons and spoils the slow-roll parameters, in contradistinction with the expectations in the single-field inflation. Nevertheless, we identify a safe zone where inflation can proceed successfully. We determine the conditions under which the Universe inflates by at least $60$ e-foldings and inflation leads to a power spectrum and tensor to scalar ratio that are consistent with the Cosmic Microwave Background data.
Highlights
Inflationary models that make use of pseudo–Nambu-Goldstone bosons are among the most compelling bottomup particle physics approaches to inflation
We conclude that the spectral tilt and the tensor to scalar ratio are given by the single-field expressions (24), and strong dynamics does not alter these quantities as long as the axion rolls down in the safe zone
We investigated the role played by the strong dynamics in models of natural inflation
Summary
Goldstone bosons are among the most compelling bottomup particle physics approaches to inflation. The anomaly matching conditions provide a nonperturbative and stronger statement about the necessity of reintroducing the heavy degrees of freedom in the low-energy effective field theory as the axion makes large excursions in the field space. We use both numerical and analytical techniques to study the inflationary potential Vða; σÞ. 50–60 e-folds of inflation even for values of f ≲ MP by starting very close to the hilltop This behavior is a manifestation of the intertwining phenomenon between the axion and heavy degrees of freedom as the former makes a large-field excursion. Many important and fine points are delegated to several footnotes, as we felt they might interrupt the flow of the main text
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