Litcius/Paper detail

TMD factorization for dijet and heavy-meson pair in DIS

Rafael F. del Castillo, Miguel G. Echevarria, Yiannis Makris, Ignazio Scimemi

2021Journal of High Energy Physics30 citationsDOIOpen Access PDF

Abstract

A bstract We study a transverse momentum dependent (TMD) factorization framework for the processes of dijet and heavy-meson pair production in deep-inelastic-scattering in an electron-proton collider, considering the measurement of the transverse momentum imbalance of the two hard probes in the Breit frame. For the factorization theorem we employ soft-collinear and boosted-heavy-quark effective field theories. The factorized cross-section for both processes is sensitive to gluon unpolarized and linearly polarized TMD distributions and requires the introduction of a new soft function. We calculate the new soft function here at one-loop, regulating rapidity divergences with the δ -regulator. In addition, using a factorization consistency relation and a universality argument regarding the heavy-quark jet function, we obtain the anomalous dimension of the new soft function at two and three loops.

Topics & Concepts

PhysicsFactorizationRapidityWeierstrass factorization theoremParticle physicsGluonUniversality (dynamical systems)Quantum chromodynamicsJet (fluid)Effective field theoryResummationConsistency (knowledge bases)Function (biology)Dimension (graph theory)Transverse planePartonPair productionRenormalization groupField (mathematics)Theoretical physicsProduction (economics)Quantum electrodynamicsPerturbative QCDMomentum (technical analysis)Order (exchange)UnitarityIntegrable systemParticle physics theoretical and experimental studiesHigh-Energy Particle Collisions ResearchQuantum Chromodynamics and Particle Interactions