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Universality of transverse-momentum resummation and hard factors at the NNLO

2 Pith papers cite this work. Polarity classification is still indexing.

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abstract

We consider QCD radiative corrections to the production of colourless high-mass systems in hadron collisions. The logarithmically-enhanced contributions at small transverse momentum are treated to all perturbative orders by a universal resummation formula that depends on a single process-dependent hard factor. We show that the hard factor is directly related to the all-order virtual amplitude of the corresponding partonic process. The direct relation is universal (process independent), and it is expressed by an all-order factorization formula that we explicitly evaluate up to the next-to-next-to-leading order (NNLO) in QCD perturbation theory. Once the NNLO scattering amplitude is available, the corresponding hard factor is directly determined: it controls NNLO contributions in resummed calculations at full next-to-next-to-leading logarithmic accuracy, and it can be used in applications of the q_T subtraction formalism to perform fully-exclusive perturbative calculations up to NNLO. The universality structure of the hard factor and its explicit NNLO form are also extended to the related formalism of threshold resummation.

fields

hep-ph 2

years

2026 2

verdicts

UNVERDICTED 2

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representative citing papers

Event-axis TMD measurements in $e^+e^-$ and SIDIS

hep-ph · 2026-07-02 · unverdicted · novelty 7.0

Completes soft-operator formulation for thrust-axis TMD in e+e- and SIDIS, proposes nonperturbative model with event-shape dependence, resums logs, and validates against Pythia8.3 simulations.

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Showing 2 of 2 citing papers after filters.

  • Event-axis TMD measurements in $e^+e^-$ and SIDIS hep-ph · 2026-07-02 · unverdicted · none · ref 50 · internal anchor

    Completes soft-operator formulation for thrust-axis TMD in e+e- and SIDIS, proposes nonperturbative model with event-shape dependence, resums logs, and validates against Pythia8.3 simulations.

  • Maximum phase-space density of linearly polarized gluon TMDs in the saturation region hep-ph · 2026-05-27 · unverdicted · none · ref 52 · internal anchor

    Computes maximum phase-space density of linearly polarized gluon TMD h1^⊥g as ~2 α_s^{-3/2} (dipole) in saturation using Mueller occupancy and prior WW/dipole distributions, with numerical Collins-Soper study.