Litcius/Paper detail

On higher-derivative effects on the gravitational potential and particle bending

Andreas Brandhuber, Gabriele Travaglini

2020Journal of High Energy Physics64 citationsDOIOpen Access PDF

Abstract

A bstract Using modern amplitude techniques we compute the leading classical and quantum corrections to the gravitational potential between two massive scalars induced by adding cubic terms to Einstein gravity. We then study the scattering of massless scalars, photons and gravitons off a heavy scalar in the presence of the same R 3 deformations, and determine the bending angle in the three cases from the non-analytic component of the scattering amplitude. Similarly to the Einstein-Hilbert case, we find that the classical contribution to the bending angle is universal, but unlike that case, universality is preserved also by the first quantum correction. Finally we extend our analysis to include a deformation of the form Φ R 2 , where Φ is the dilaton, which arises in the low-energy effective action of the bosonic string in addition to the R 3 term, and compute its effect on the graviton bending.

Topics & Concepts

PhysicsGravitonMassless particleScattering amplitudeGravitationScalar (mathematics)QuantumPhotonClassical mechanicsString (physics)Quantum mechanicsScatteringAmplitudeEffective actionQuantum electrodynamicsEinsteinQuantum gravityBendingUniversality (dynamical systems)Action (physics)General relativityString theoryTheoretical physicsQuantization (signal processing)Massive particleExtra dimensionsPolarization (electrochemistry)Pulsars and Gravitational Waves ResearchBlack Holes and Theoretical PhysicsCosmology and Gravitation Theories