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Weyl Double Copy for Gravitational Waves

Hadi Godazgar, Mahdi Godazgar, Ricardo Monteiro, David Peinador Veiga, C.N. Pope

2021Physical Review Letters80 citationsDOIOpen Access PDF

Abstract

We establish the status of the Weyl double copy relation for radiative solutions of the vacuum Einstein equations. We show that all type N vacuum solutions, which describe the radiation region of isolated gravitational systems with appropriate falloff for the matter fields, admit a degenerate Maxwell field that squares to give the Weyl tensor. The converse statement also holds, i.e., if there exists a degenerate Maxwell field on a curved background, then the background is type N. This relation defines a scalar that satisfies the wave equation on the background. We show that for nontwisting radiative solutions, the Maxwell field and the scalar also satisfy the Maxwell equation and the wave equation on Minkowski spacetime. Hence, nontwisting solutions have a straightforward double copy interpretation.

Topics & Concepts

PhysicsMinkowski spaceMathematical physicsMaxwell's equationsGravitational waveScalar fieldDegenerate energy levelsWave equationSpacetimeScalar (mathematics)Electromagnetic tensorMaxwell's equations in curved spacetimeGeneral relativityClassical mechanicsQuantum mechanicsNumerical relativityMathematics of general relativityGeometryMathematicsPulsars and Gravitational Waves ResearchCosmology and Gravitation TheoriesBlack Holes and Theoretical Physics
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