Swampland bound on quintessential inflation in IDM
Abstract
We study a quintessential inflation scenario based on the Inert Doublet Model (IDM) coupled to a quintessence field via an exponential potential V0e-βφ/Mp. Using a conformal transformation from the Jordan frame to the Einstein frame, we derive an effective Starobinsky-type potential modulated by an exponential factor that naturally unifies the inflationary epoch with the late-time accelerated expansion of the Universe. We analyze the resulting two-field dynamics, compute the slow-roll parameters, the primordial perturbation spectrum, as well as the inflationary observables ns and r, and then confront the predictions with the latest Planck and BICEP/Keck data. We find amongst others that the quintessence inflaton coupling must remain extremely weak, in the order of β 4×10-3, to satisfy current CMB data, whereas swampland dS conjecture favors a step potential with β(1), signaling a significant tension between quantum gravity consistency and cosmological viability. We conclude by discussing possible extensions and stabilization mechanisms that could help reconcile the inflationary predictions with swampland constraints.
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