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Gravitational shock waves and scattering amplitudes

Andrea Cristofoli

2020Journal of High Energy Physics50 citationsDOIOpen Access PDF

Abstract

A bstract We study gravitational shock waves using scattering amplitude techniques. After first reviewing the derivation in General Relativity as an ultrarelativistic boost of a Schwarzschild solution, we provide an alternative derivation by exploiting a novel relation between scattering amplitudes and solutions to Einstein field equations. We prove that gravitational shock waves arise from the classical part of a three point function with two massless scalars and a graviton. The region where radiation is localized has a distributional profile and it is now recovered in a natural way, thus bypassing the introduction of singular coordinate transformations as used in General Relativity. The computation is easily generalized to arbitrary dimensions and we show how the exactness of the classical solution follows from the absence of classical contributions at higher loops. A classical double copy between gravitational and electromagnetic shock waves is also provided and for a spinning source, using the exponential form of three point amplitudes, we infer a remarkable relation between gravitational shock waves and spinning ones, also known as gyratons. Using this property, we infer a family of exact solutions describing gravitational shock waves with spin. We then compute the phase shift of a particle in a background of shock waves finding agreement with an earlier computation by Amati, Ciafaloni and Veneziano for particles in the high energy limit. Applied to a gyraton, it provides a result for the scattering angle to all orders in spin.

Topics & Concepts

PhysicsGravitational waveClassical mechanicsGeneral relativityScattering amplitudeMassless particleGravitational redshiftAmplitudeGravitational fieldSchwarzschild radiusGravitationShock waveScatteringQuantum electrodynamicsGravitational energyElectromagnetic radiationSchwarzschild metricMathematical physicsGravitational-wave observatoryEinsteinTest particleNumerical relativityQuantum mechanicsSpeed of gravityShock (circulatory)Pulsars and Gravitational Waves ResearchCosmology and Gravitation TheoriesBlack Holes and Theoretical Physics
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