A polynomial f(R) inflation model

· 2013 · hep-th · arXiv 1309.3514

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abstract

Motivated by the ultraviolet complete theory of quantum gravity, for example the string theory, we investigate a polynomial $f(R )$ inflation model in detail. We calculate the spectral index and tensor-to-scalar ratio in the $f(R )$ inflation model with the form of $f(R )=R+{R^2\over 6M^2}+{\lambda_n\over 2n}{R^n\over (3M^2)^{n-1}}$. Compared to Planck 2013, we find that $R^n$ term should be exponentially suppressed, i.e. $|\lambda_n|\lesssim 10^{-2n+2.6}$.

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Primordial black holes formation in inflationary $F(R)$ models with scalar fields

gr-qc · 2025-09-25 · unverdicted · novelty 5.0

Authors add induced gravity and a polynomial potential to an F(R) model, transform to a two-field chiral cosmology, and find parameter choices that match ACT inflation data while yielding PBH masses compatible with dark matter.

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Primordial black holes formation in inflationary $F(R)$ models with scalar fields gr-qc · 2025-09-25 · unverdicted · none · ref 73 · internal anchor
Authors add induced gravity and a polynomial potential to an F(R) model, transform to a two-field chiral cosmology, and find parameter choices that match ACT inflation data while yielding PBH masses compatible with dark matter.

A polynomial f(R) inflation model

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