The small $$k_{\textrm{T}}$$region in Drell–Yan production at next-to-leading order with the parton branching method

Bubanja, I.; Bermudez Martinez, A.; Favart, L.; Guzman, F.; Hautmann, F.; Jung, H.; Lelek, A.; Mendizabal, M.; Moral Figueroa, K.; Moureaux, L.; Raicevic, N.; Seidel, M.; Taheri Monfared, S.

doi:10.1140/epjc/s10052-024-12507-0

Eur. Phys. J. C

2024

DOI: 10.1140/epjc/s10052-024-12507-0

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The small $$k_{\textrm{T}}$$region in Drell–Yan production at next-to-leading order with the parton branching method

I. Bubanja,

A. Bermudez Martinez,

L. Favart

et al.

Abstract: The Parton Branching (PB) method describes the evolution of transverse momentum dependent (TMD) parton distributions, covering all kinematic regions from small to large transverse momenta $$k_{\textrm{T}}$$ k T . The small $$k_{\textrm{T}}$$ k T -region is very sensitive both to the contribution of the intrinsic motion of par… Show more

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Flavor dependence of unpolarized quark transverse momentum distributions from a global fit

Bacchetta,

Bertone,

Bissolotti

et al. 2024

J. High Energ. Phys.

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We present an extraction of the unpolarized transverse-momentum-dependent parton distribution and fragmentation functions that takes into account possible differences between quark flavors and final-state hadrons. The extraction is based on experimental measurements from Drell-Yan processes and semi-inclusive deep-inelastic scattering, whose combination is essential to distinguish flavor differences. The analysis is carried out at N3LL accuracy. The extracted flavor-dependent distributions give a very good description of the data (χ2/Ndat = 1.08). The resulting error bands take fully into account also the uncertainties in the determination of the corresponding collinear distributions.

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Flavor dependence of unpolarized quark transverse momentum distributions from a global fit

Bacchetta,

Bertone,

Bissolotti

et al. 2024

J. High Energ. Phys.

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show abstract

Study of intrinsic-kT in the Parton Branching Method

Raičević

2024

Nuclear and Particle Physics Proceedings

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On the role of soft and non-perturbative gluons in collinear parton densities and parton shower event generators

Mendizabal,

Guzman,

Jung

et al. 2024

Eur. Phys. J. C

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The Parton Branching method offers a Monte Carlo solution to the DGLAP evolution equations by incorporating Sudakov form factors. In this approach, the Sudakov form factor can be divided into perturbative and non-perturbative components, with the non-perturbative part being analytically calculable under specific conditions. We first examine forward evolution and demonstrate that including soft and non-perturbative gluons (through the non-perturbative Sudakov form factor) is essential for the proper cancellation of divergent terms in parton density evolution. This non-perturbative component is also important for Transverse Momentum Dependent (TMD) parton distributions, and within the Parton Branching framework, it is constrained by fits to inclusive collinear parton densities. Additionally, we explore the impact of this non-perturbative Sudakov form factor on backward parton evolution and its effects on parton and hadron spectra originating from initial state showers. Our results show that soft and non-perturbative gluons significantly influence inclusive distributions, such as Drell–Yan transverse momentum spectra. However, we found that soft and non-perturbative gluons have a minimal impact on final state hadron spectra and jets.

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The small $$k_{\textrm{T}}$$region in Drell–Yan production at next-to-leading order with the parton branching method

Cited by 3 publications

References 36 publications

Flavor dependence of unpolarized quark transverse momentum distributions from a global fit

Flavor dependence of unpolarized quark transverse momentum distributions from a global fit

Study of intrinsic-kT in the Parton Branching Method

On the role of soft and non-perturbative gluons in collinear parton densities and parton shower event generators

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