Litcius/Paper detail

Universal Pattern in Quantum Gravity at Infinite Distance

Alberto Castellano, Ignacio Ruiz, Irene Valenzuela

2024Physical Review Letters34 citationsDOIOpen Access PDF

Abstract

Quantum gravitational effects become significant at a cutoff that can be much lower than the Planck scale whenever there is a large number of light fields. This is expected to occur at any perturbative limit of an effective field theory coupled to gravity, or equivalently, at infinite distance in the field space of the UV completion. In this note, we present a universal pattern that links the asymptotic variation in field space of the quantum gravity cutoff Λ_{sp} and the characteristic mass of the lightest tower of states m: (∇[over →]m/m)·(∇[over →]Λ_{sp}/Λ_{sp})=[1/(d-2)], with d the spacetime dimension. This restriction can be used to make more precise several Swampland criteria that constrain any effective field theory which can be consistently coupled to quantum gravity.

Topics & Concepts

PhysicsQuantum gravityAsymptotic safety in quantum gravityGravitationSemiclassical gravityLoop quantum gravityGravitational fieldVirtual black holePlanck massCutoffEntropic gravityQuantum field theoryEuclidean quantum gravityQuantum field theory in curved spacetimeQuantumField (mathematics)Hořava–Lifshitz gravityGroup field theoryQuantum mechanicsQuantum dynamicsQuantum processMathematicsSchwarzschild radiusCharged black holePure mathematicsBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesNoncommutative and Quantum Gravity Theories