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Palatini $f(R)$ gravity and variants of k-/constant roll/warm inflation within variation of strong coupling scenario

We show that upon applying Palatini $f(R)$, characterized by an $\a R^2$-term, within a scenario motivated by a temporal variation of strong coupling constant, then one gets a quadratic kinetic energy. We do not drop this term, but rather study two extreme cases: $\a <<1$ and $\a >>1$. In both cases one can generate a kinematically-induced inflationary paradigm. In order to fit the Planck 2018 data, the $\a >>1$ case, called k-inflation, requires a fine tuning adjustment with non-vanishing non-minimal coupling to gravity parameter $ξ$, whereas the $\a <<1$ case, studied in the constant-roll regime, can fit the data for vanishing $ξ$. The varying strong coupling inflation scenario remains viable when implemented through a warm inflation scenario with or without $f(R)$ gravity.

preprint2022arXivOpen access
M. AlHallakA. AlRakikN. ChamounM. S. El-Daher
astro-ph.CO
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M. AlHallakA. AlRakikN. ChamounM. S. El-Daher

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