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Freeze-in production of scalaron dark matter in $f(R)$ gravity

We demonstrate that the scalaron, a scalar degree of freedom, emerging from the $f(R)$ theory of gravity, can account for the observed dark matter (DM) abundance if its mass is around the MeV scale, to ensure its cosmological stability. Focusing on two well-known $f(R)$ gravity models, we systematically show that if scalaron production proceeds via the freeze-in mechanism, the right relic abundance is satisfied over a very narrow window of reheating temperature $10^{14}\lesssim T_{\rm rh}\lesssim 10^{16}$ GeV. We delineate the viable parameter space of the $f(R)$ models consistent with the observed DM abundance, and highlight relevant experimental constraints from searches targeting DM decay signatures.

preprint2026arXivOpen access
Basabendu BarmanAshmita DasRakesh Kumar SivaKumarRudra Pratap Udgata
astro-ph.COhep-phhep-th
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Basabendu BarmanAshmita DasRakesh Kumar SivaKumarRudra Pratap Udgata

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