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Natural inflation with exponentially small tensor-to-scalar ratio

We demonstrate that"natural inflation", also known as"axion inflation", can be compatible with Planck 2018 measurements of the cosmic microwave background, while predicting an exponentially small tensor-to-scalar ratio, e.g., $r\sim 10^{-15}$.… Click to show full abstract

We demonstrate that"natural inflation", also known as"axion inflation", can be compatible with Planck 2018 measurements of the cosmic microwave background, while predicting an exponentially small tensor-to-scalar ratio, e.g., $r\sim 10^{-15}$. The strong suppression of $r$ arises from dynamics of the radial component of the complex scalar field, whose phase is the axion. Such tiny values of $r$ remain well below the threshold for detection by CMB-S4 or Simons Observatory B-mode searches. The model is testable with the running $\alpha_s$ of the spectral index, which is within reach of next-generation CMB and large-scale structure experiments, motivating the running as a primary science goal for future experiments.

Keywords: scalar ratio; inflation; natural inflation; tensor scalar; exponentially small; small tensor

Journal Title: Physical Review D
Year Published: 2024

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