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An effective field theory approach to quarkonium at small transverse momentum

Sean Fleming, Yiannis Makris, Thomas Mehen

2020Journal of High Energy Physics37 citationsDOIOpen Access PDF

Abstract

A bstract In this work we apply effective field theory (EFT) to observables in quarkonium production and decay that are sensitive to soft gluon radiation, in particular measurements that are sensitive to small transverse momentum. Within the EFT framework we study χ Q decay to light quarks followed by the fragmentation of those quarks to light hadrons. We derive a factorization theorem that involves transverse momentum distribution (TMD) fragmentation functions and new quarkonium TMD shape functions. We derive renormalization group equations, both in rapidity and virtuality, which are used to evolve the different terms in the factorization theorem to resum large logarithms. This theoretical framework will provide a systematic treatment of quarkonium production and decay processes in TMD sensitive measurements.

Topics & Concepts

PhysicsQuarkoniumParticle physicsEffective field theoryGluonQuarkFactorizationRenormalizationObservableRapidityQuantum electrodynamicsQuantum field theoryFragmentation functionWeierstrass factorization theoremNuclear physicsFragmentation (computing)Drell–Yan processQuantum chromodynamicsTransverse planeField (mathematics)Renormalization groupPair productionParticle physics theoretical and experimental studiesHigh-Energy Particle Collisions ResearchQuantum Chromodynamics and Particle Interactions