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Effective Spin Foam Models for Four-Dimensional Quantum Gravity

Seth K. Asante, Bianca Dittrich, Hal M. Haggard

2020Physical Review Letters71 citationsDOIOpen Access PDF

Abstract

A number of approaches to four-dimensional quantum gravity, such as loop quantum gravity and holography, situate areas as their fundamental variables. However, this choice of kinematics can easily lead to gravitational dynamics peaked on flat spacetimes. We show that this is due to how regions are glued in the gravitational path integral via a discrete spin foam model. We introduce a family of "effective" spin foam models that incorporate a quantum area spectrum, impose gluing constraints as strongly as possible, and leverage the discrete general relativity action to specify amplitudes. These effective spin foam models avoid flatness in a restricted regime of the parameter space.

Topics & Concepts

Spin foamLoop quantum gravityPhysicsSpin networkQuantum gravityGroup field theoryRenormalizationImmirzi parameterPath integral formulationClassical mechanicsSpin (aerodynamics)GravitationGeneral relativityQuantumFlatness (cosmology)Theoretical physicsQuantum mechanicsCosmologyThermodynamicsBlack Holes and Theoretical PhysicsNoncommutative and Quantum Gravity TheoriesCosmology and Gravitation Theories
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