Quantum Gravity Meets DESI: Dynamical Dark Energy in Light of the Trans-Planckian Censorship Conjecture

Abstract: Recent DESI DR2 observations indicate that dark energy has crossed from phantom to quintessence regime, a behavior known as the quintom-B realization. In this work we constrain dynamical dark energy and modified gravity using the swampland Trans-Planckian Censorship Conjecture (TCC), which forbids eternal acceleration since in this case any trans-Planckian quantum fluctuation would eventually stretch beyond the Hubble radius, breaking the applicability of any effective field theory and cosmological techniques. By combining DESI DR2 data with the TCC criterion, we impose tight constraints on the dark energy equation of state and its parameter space in scenarios such as the Chevallier-Polarski-Linder, Barboza-Alcaniz, Jassal-Bagla-Padmanabhan, EXP and LOG parameterizations, significantly constraining the quintom-A behavior. Also we examine models within the framework of $f(T)$ and $f(Q)$ modified gravity theories, demonstrating that TCC is very powerful to constrain or exclude them, a result that indicates the necessity to consider infrared modifications on General Relativity apart from the usual ultraviolet ones. Our findings imply that viable dynamical dark energy scenarios must asymptotically transit to deceleration, shedding light on new physics consistent with both cosmological observations and quantum gravity principles.