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Classical solutions and their double copy in split signature

Ricardo Monteiro, Donal O’Connell, David Peinador Veiga, Matteo Sergola

2021Journal of High Energy Physics74 citationsDOIOpen Access PDF

Abstract

A bstract The three-point amplitude is the key building block in the on-shell approach to scattering amplitudes. We show that the classical objects computed by massive three-point amplitudes in gauge theory and gravity are Newman-Penrose scalars in a split-signature spacetime, where three-point amplitudes can be defined for real kinematics. In fact, the quantum state set up by the particle is a coherent state fully determined by the three-point amplitude due to an eikonal-type exponentiation. Having identified this simplest classical solution from the perspective of scattering amplitudes, we explore the double copy of the Newman-Penrose scalars induced by the traditional double copy of amplitudes, and find that it coincides with the Weyl version of the classical double copy. We also exploit the Kerr-Schild version of the classical double copy to determine the exact spacetime metric in the gravitational case. Finally, we discuss the direct implication of these results for Lorentzian signature via analytic continuation.

Topics & Concepts

PhysicsSignature (topology)Scattering amplitudeMetric (unit)AmplitudeGravitationTheoretical physicsMathematical physicsQuantum mechanicsGauge theorySpacetimeScatteringQuantumClassical mechanicsSet (abstract data type)State (computer science)Quantum gravityBlock (permutation group theory)Gauge (firearms)Standard Model (mathematical formulation)Noncommutative and Quantum Gravity TheoriesBlack Holes and Theoretical PhysicsQuantum and Classical Electrodynamics
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