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The Newman-Penrose map and the classical double copy

Gilly Elor, Kara Farnsworth, Michael L. Graesser, Gabriel Herczeg

2020Journal of High Energy Physics58 citationsDOIOpen Access PDF

Abstract

A bstract Gauge-gravity duality is arguably our best hope for understanding quantum gravity. Considerable progress has been made in relating scattering amplitudes in certain gravity theories to those in gauge theories — a correspondence dubbed the double copy . Recently, double copies have also been realized in a classical setting, as maps between exact solutions of gauge theories and gravity. We present here a novel map between a certain class of real, exact solutions of Einstein’s equations and self-dual solutions of the flat-space vacuum Maxwell equations. This map, which we call the Newman-Penrose map , is well-defined even for non-vacuum, non-stationary spacetimes, providing a systematic framework for exploring gravity solutions in the context of the double copy that have not been previously studied in this setting. To illustrate this, we present here the Newman- Penrose map for the Schwarzschild and Kerr black holes, and Kinnersley’s photon rocket.

Topics & Concepts

PhysicsDuality (order theory)Theoretical physicsGauge theoryContext (archaeology)Schwarzschild radiusMathematical physicsGauge (firearms)Quantum gravityClass (philosophy)PhotonQuantumBlack hole (networking)Classical mechanicsQuantum mechanicsScattering amplitudeGravitationPhoton sphereQuantum field theoryScatteringRelativity and Gravitational TheoryPulsars and Gravitational Waves ResearchNoncommutative and Quantum Gravity Theories
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