Logarithmically-accurate and positive-defnite NLO shower matching

van Beekveld, Melissa; Ferrario Ravasio, Silvia; Helliwell, Jack; Karlberg, Alexander; Scyboz, Ludovic; Soto-Ontoso, Alba; Soyez, Gregory; Zanoli, Silvia

doi:10.1007/JHEP10(2025)038

JHEP10(2025)038.pdf (1.203Mb)

Identificadores

URI: https://hdl.handle.net/10481/107491

DOI: 10.1007/JHEP10(2025)038

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Editorial

Springer Nature

Materia

Higher-Order Perturbative Calculations

Parton Shower

Resummation

Fecha

2025-10-03

Referencia bibliográfica

van Beekveld, M., Ferrario Ravasio, S., Helliwell, J. et al. Logarithmically-accurate and positive-definite NLO shower matching. J. High Energ. Phys. 2025, 38 (2025). https://doi.org/10.1007/JHEP10(2025)038

Patrocinador

Royal Society (Research Professorship RP R1 231001); European Research Council (ERC, Grant 788223, PanScales); Science and Technology Facilities Council (STFC, Grant ST/X000761/1); Dutch Research Council (NWO, Project VI.Veni.232.190); Australian Research Council (Discovery Project DP230103014); Australian Research Council (Discovery Early Career Researcher Award DE230100867); Ramón y Cajal program (Grant RYC2022-037846-I); Kavli Institute for Theoretical Physics (KITP, Grant NSF PHY-2309135)

Resumen

We present methods to achieve NLL+NLO accurate parton showering for processes with two coloured legs: neutral- and charged-current Drell-Yan, and Higgs production in pp collisions, as well as DIS and e +e − to jets. The methods include adaptations of existing approaches, as well as a new NLO matching scheme, ESME, that is positive-defnite by construction. Our implementations of the methods within the PanScales framework yield highly competitive NLO event generation speeds. We validate the fxed-order and combined resummation accuracy with tests in the limit of small QCD coupling and briefy touch on phenomenological comparisons to standard NLO results and to Drell-Yan data. The progress reported here is an essential step towards showers with logarithmic accuracy beyond NLL for processes with incoming hadrons.

Colecciones

OpenAIRE (Open Access Infrastructure for Research in Europe)

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