Dr Ludovic Scyboz

Matching and event-shape NNDL accuracy in parton showers

JOURNAL OF HIGH ENERGY PHYSICS (2023) ARTN 224

Authors:

Keith Hamilton, Alexander Karlberg, Gavin PP Salam, Ludovic Scyboz, Rob Verheyen

Soft spin correlations in final-state parton showers

JOURNAL OF HIGH ENERGY PHYSICS (2022) ARTN 193

Authors:

Keith Hamilton, Alexander Karlberg, Gavin P Salam, Ludovic Scyboz, Rob Verheyen

Spin correlations in final-state parton showers and jet observables

European Physical Journal C Springer 81:8 (2021) 681

Authors:

Gavin P Salam, Alexander Karlberg, Ludovic Scyboz, Rob Verheyen

Abstract:

As part of a programme to develop parton showers with controlled logarithmic accuracy, we consider the question of collinear spin correlations within the PanScales family of parton showers. We adapt the well-known Collins–Knowles spin-correlation algorithm to PanScales antenna and dipole showers, using an approach with similarities to that taken by Richardson and Webster. To study the impact of spin correlations, we develop Lund-declustering based observables that are sensitive to spin-correlation effects both within and between jets and extend the MicroJets collinear single-logarithmic resummation code to include spin correlations. Together with a 3-point energy correlation observable proposed recently by Chen, Moult and Zhu, this provides a powerful set of constraints for validating the logarithmic accuracy of our shower results. The new observables and their resummation further open the pathway to phenomenological studies of these important quantum mechanical effects.

Colour and logarithmic accuracy in final-state parton showers

Authors:

Keith Hamilton, Rok Medves, Gavin P Salam, Ludovic Scyboz, Gregory Soyez

Abstract:

Standard dipole parton showers are known to yield incorrect subleading-colour contributions to the leading (double) logarithmic terms for a variety of observables. In this work, concentrating on final-state showers, we present two simple, computationally efficient prescriptions to correct this problem, exploiting a Lund-diagram type classification of emission regions. We study the resulting effective multiple-emission matrix elements generated by the shower, and discuss their impact on subleading colour contributions to leading and next-to-leading logarithms (NLL) for a range of observables. In particular we show that the new schemes give the correct full colour NLL terms for global observables and multiplicities. Subleading colour issues remain at NLL (single logarithms) for non-global observables, though one of our two schemes reproduces the correct full-colour matrix-element for any number of energy-ordered commensurate-angle pairs of emissions. While we carry out our tests within the PanScales shower framework, the schemes are sufficiently simple that it should be straightforward to implement them also in other shower frameworks.

Anomalous couplings in Higgs-boson pair production at approximate NNLO QCD

Journal of High Energy Physics Springer Nature 2021:9 (2021) 161

Authors:

Daniel de Florian, Ignacio Fabre, Gudrun Heinrich, Javier Mazzitelli, Ludovic Scyboz

Abstract:

We combine NLO predictions with full top-quark mass dependence with approximate NNLO predictions for Higgs-boson pair production in gluon fusion, including the possibility to vary coupling parameters within a non-linear Effective Field Theory framework containing five anomalous couplings for this process. We study the impact of the anomalous couplings on various observables, and present Higgs-pair invariant-mass distributions at seven benchmark points characterising different mhh shape types. We also provide numerical coefficients for the approximate NNLO cross section as a function of the anomalous couplings at √s = 14 TeV.