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On effective field theories with celestial duals

Lecheng Ren, Marcus Spradlin, Akshay Yelleshpur Srikant, Anastasia Volovich

2022Journal of High Energy Physics52 citationsDOIOpen Access PDF

Abstract

A bstract We show that associativity of the tree-level OPE in a celestial CFT imposes constraints on the coupling constants of the corresponding bulk theory. These constraints are the same as those derived in [9] from the Jacobi identity of the algebra of soft modes. The constrained theories are interesting as apparently well-defined celestial CFTs with a deformed w 1+ ∞ symmetry algebra. We explicitly work out the ramifications of these constraints on scattering amplitudes involving gluons, gravitons and scalars in these theories. We find that all four-point amplitudes constructible solely from holomorphic or anti-holomorphic three-point amplitudes vanish on the support of these constraints, which implies that all purely holomorphic or purely anti-holomorphic higher-point amplitudes vanish.

Topics & Concepts

Holomorphic functionGravitonMathematical physicsScattering amplitudeDual polyhedronPhysicsAmplitudeField theory (psychology)Pure mathematicsCoupling (piping)MathematicsTheoretical physicsQuantum mechanicsGravitationEngineeringMechanical engineeringBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesParticle physics theoretical and experimental studies