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Celestial Liouville theory for Yang-Mills amplitudes

Stephan Stieberger, Tomasz R. Taylor, Bin Zhu

2022Physics Letters B40 citationsDOIOpen Access PDF

Abstract

We consider Yang-Mills theory with the coupling constant and theta angle determined by the vacuum expectation values of a dynamical (complex, zero mass) dilaton field. We discuss the tree-level N-gluon MHV scattering amplitudes in the presence of a nontrivial background dilaton field and construct the corresponding celestial amplitudes by taking Mellin transforms with respect to the light cone frame energies. In this way, we obtain two-dimensional CFT correlators of primary fields on the celestial sphere. We show that the celestial Yang-Mills amplitudes evaluated in the presence of a spherical dilaton shockwave are given by the correlation functions of primary field operators factorized into the holomorphic current operators times the “light” Liouville operators. They are evaluated in the semiclassical limit of Liouville theory (the limit of infinite central charge) and are determined by the classical Liouville field describing metrics on the celestial sphere.

Topics & Concepts

PhysicsMathematical physicsAmplitudeYang–Mills theoryQuantum electrodynamicsLiouville field theoryYang–Mills existence and mass gapTheoretical physicsClassical mechanicsQuantum mechanicsGauge theoryThermal quantum field theoryQuantum gravityQuantumBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesNoncommutative and Quantum Gravity Theories
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