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Graviton-mediated scattering amplitudes from the quantum effective action

Tom Draper, Benjamin Knorr, Chris Ripken, Frank Saueressig

2020Journal of High Energy Physics35 citationsDOIOpen Access PDF

Abstract

A bstract We employ the curvature expansion of the quantum effective action for gravity-matter systems to construct graviton-mediated scattering amplitudes for non-minimally coupled scalar fields in a Minkowski background. By design, the formalism parameterises all quantum corrections to these processes and is manifestly gauge-invariant. The conditions resulting from UV-finiteness, unitarity, and causality are analysed in detail and it is shown by explicit construction that the quantum effective action provides sufficient room to meet these structural requirements without introducing non-localities or higher-spin degrees of freedom. Our framework provides a bottom-up approach to all quantum gravity programs seeking for the quantisation of gravity within the framework of quantum field theory. Its scope is illustrated by specific examples, including effective field theory, Stelle gravity, infinite derivative gravity, and Asymptotic Safety.

Topics & Concepts

PhysicsEffective actionQuantum gravityQuantumScattering amplitudeMinkowski spaceAsymptotic safety in quantum gravityQuantum mechanicsQuantum field theoryPropagatorClassical mechanicsCurvatureTheoretical physicsScalar (mathematics)Action (physics)Scalar fieldScatteringEffective field theoryQuantum electrodynamicsQuantum processAmplitudeSemiclassical gravityScalar field theoryCausality (physics)RenormalizationQuantization (signal processing)Canonical quantizationQuantum algorithmHořava–Lifshitz gravityField (mathematics)Spin foamLoop quantum gravityFormalism (music)Mathematical physicsCovariant transformationOpen quantum systemNoncommutative and Quantum Gravity TheoriesQuantum Electrodynamics and Casimir EffectBlack Holes and Theoretical Physics
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