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Large logarithms from quantum gravitational corrections to a massless, minimally coupled scalar on de Sitter

Dražen Glavan, S. P. Miao, Tomislav Prokopec, R. P. Woodard

2022Journal of High Energy Physics27 citationsDOIOpen Access PDF

Abstract

A bstract We consider single graviton loop corrections to the effective field equation of a massless, minimally coupled scalar on de Sitter background in the simplest gauge. We find a large temporal logarithm in the approach to freeze-in at late times, but no correction to the feeze-in amplitude. We also find a large spatial logarithm (at large distances) in the scalar potential generated by a point source, which can be explained using the renormalization group with one of the higher derivative counterterms regarded as a curvature-dependent field strength renormalization. We discuss how these results set the stage for a project to purge gauge dependence by including quantum gravitational corrections to the source which disturbs the effective field and to the observer who measures it.

Topics & Concepts

PhysicsGravitonMassless particleScalar fieldDe Sitter universeMathematical physicsRenormalizationQuantum electrodynamicsLogarithmScalar (mathematics)CurvatureAnti-de Sitter spaceRenormalization groupDe Sitter spaceGravitationQuantum mechanicsUniverseMathematical analysisGeometryMathematicsCosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsParticle physics theoretical and experimental studies
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