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Back-to-back inclusive dijets in DIS at small x: gluon Weizsäcker-Williams distribution at NLO

Paul Caucal, Farid Salazar, Björn Schenke, Tomasz Stebel, Raju Venugopalan

2023Journal of High Energy Physics45 citationsDOIOpen Access PDF

Abstract

A bstract In [1], we performed the first complete computation of the back-to-back inclusive dijet cross-section in Deeply Inelastic Scattering (DIS) at small x Bj to next-to-leading order (NLO) in the Color Glass Condensate effective field theory (CGC EFT). We demonstrate here that for dijets with relative transverse momentum P ⊥ and transverse momentum imbalance q ⊥ , to leading power in q ⊥ / P ⊥ , the cross-section for longitudinally polarized photons can be fully factorized into the product of a perturbative impact factor and the non-perturbative Weizsäcker-Williams (WW) transverse momentum dependent (TMD) gluon distribution to NLO accuracy. The impact factor can further be expressed as the product of a universal soft factor which resums Sudakov double and single logs in P ⊥ / q ⊥ and a coefficient function given by a remarkably compact analytic expression. We show that in the CGC EFT the WW TMD satisfies a kinematically constrained JIMWLK renormalization group evolution in rapidity. This factorization formula is valid to all orders in Q s / q ⊥ for q ⊥ , Q s ≪ P ⊥ , where Q s is the semi-hard saturation scale that grows with rapidity.

Topics & Concepts

PhysicsRapidityGluonFactorizationParticle physicsPerturbative QCDDeep inelastic scatteringQuantum chromodynamicsRenormalizationScatteringProduct (mathematics)Quantum electrodynamicsMathematical physicsQuantum mechanicsInelastic scatteringHadronGeometryComputer scienceMathematicsAlgorithmHigh-Energy Particle Collisions ResearchParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle Interactions