Nonlocal gravity with worldline inversion symmetry
Steven Abel, Luca Buoninfante, Anupam Mazumdar
Abstract
A bstract We construct a quadratic curvature theory of gravity whose graviton propagator around the Minkowski background respects wordline inversion symmetry, the particle approximation to modular invariance in string theory. This symmetry automatically yields a corresponding gravitational theory that is nonlocal, with the action containing infinite order differential operators. As a consequence, despite being a higher order derivative theory, it is ghost-free and has no degrees of freedom besides the massless spin-2 graviton of Einstein’s general relativity. By working in the linearised regime we show that the point-like singularities that afflict the (local) Einstein’s theory are smeared out.
Topics & Concepts
PhysicsGravitonMinkowski spaceGravitational singularityPropagatorMassless particleMathematical physicsCurvatureGravitationString theoryModular invarianceEffective actionSymmetry (geometry)Quantum gravityQuadratic equationClassical mechanicsRegularization (linguistics)Action (physics)Theoretical physicsSingularityCovariant transformationDimensional regularizationRiemann curvature tensorTachyonDegrees of freedom (physics and chemistry)Massive gravityEffective field theoryFactorizationQuantum field theory in curved spacetimeString (physics)RenormalizationQuantum mechanicsTensor (intrinsic definition)Quantum field theoryBlack Holes and Theoretical PhysicsNoncommutative and Quantum Gravity TheoriesCosmology and Gravitation Theories