Litcius/Paper detail

Charge algebra for non-abelian large gauge symmetries at O(r)

Campiglia Curcho, Miguel, Peraza, Javier

2021LA Referencia (Red Federada de Repositorios Institucionales de Publicaciones Científicas)18 citationsDOIOpen Access PDF

Abstract

Asymptotic symmetries of gauge theories are known to encode infrared properties of radiative fields. In the context of tree-level Yang-Mills theory, the leading soft behavior of gluons is captured by large gauge symmetries with parameters that are O(1) in the large r expansion towards null infinity. This relation can be extended to subleading order provided one allows for large gauge symmetries with O(r) gauge parameters. The latter, however, violate standard asymptotic field fall-offs and thus their interpretation has remained incomplete. We improve on this situation by presenting a relaxation of the standard asymptotic field behavior that is compatible with O(r) gauge symmetries at linearized level. We show the extended space admits a symplectic structure on which O(1) and O(r) charges are well defined and such that their Poisson brackets reproduce the corresponding symmetry algebra.

Topics & Concepts

PhysicsHomogeneous spaceGauge symmetryGauge theorySupersymmetric gauge theorySymplectic geometryGauge (firearms)Theoretical physicsCharge (physics)Context (archaeology)Mathematical physicsIntroduction to gauge theorySymmetry (geometry)Hamiltonian lattice gauge theoryBRST quantizationGauge anomalyCentral chargeField (mathematics)Gauge bosonPoisson bracketGauge fixingNull (SQL)Charge conservationSpace (punctuation)Standard Model (mathematical formulation)Asymptotic freedomSymmetry groupBackground field methodSpontaneous symmetry breakingGauge groupRelaxation (psychology)Quantum gauge theoryQuantum mechanicsBlack Holes and Theoretical PhysicsQuantum Chromodynamics and Particle InteractionsCosmology and Gravitation Theories