Matching and event-shape NNDL accuracy in parton showers

To explore the interplay of NLO matching and next-to-leading logarithmic (NLL) parton showers, we consider the simplest case of γ$^{*}$ and Higgs-boson decays to $ q\overline{q} $ and gg respectively. Not only should shower NLL accuracy be retained across observables after matching, but for global e...

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Detalles Bibliográficos
Autores principales: Hamilton, Keith, Karlberg, Alexander, Salam, Gavin P., Scyboz, Ludovic, Verheyen, Rob
Lenguaje:eng
Publicado: 2023
Materias:
hep-ph
Particle Physics - Phenomenology
Acceso en línea:https://dx.doi.org/10.1007/JHEP03(2023)224
http://cds.cern.ch/record/2848670
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author Hamilton, Keith
Karlberg, Alexander
Salam, Gavin P.
Scyboz, Ludovic
Verheyen, Rob
author_facet Hamilton, Keith
Karlberg, Alexander
Salam, Gavin P.
Scyboz, Ludovic
Verheyen, Rob
author_sort Hamilton, Keith
collection CERN
description To explore the interplay of NLO matching and next-to-leading logarithmic (NLL) parton showers, we consider the simplest case of γ$^{*}$ and Higgs-boson decays to $ q\overline{q} $ and gg respectively. Not only should shower NLL accuracy be retained across observables after matching, but for global event-shape observables and the two-jet rate, matching can augment the shower in such a way that it additionally achieves next-to-next-to-double-logarithmic (NNDL) accuracy, a first step on the route towards general NNLL. As a proof-of-concept exploration of this question, we consider direct application of multiplicative matrix-element corrections, as well as simple implementations of MC@NLO and POWHEG-style matching. We find that the first two straightforwardly bring NNDL accuracy, and that this can also be achieved with POWHEG, although particular care is needed in the handover between POWHEG and the shower. Our study involves both analytic and numerical components and we also touch on some phenomenological considerations.
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institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2023
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spelling cern-28486702023-10-21T02:27:46Zdoi:10.1007/JHEP03(2023)224http://cds.cern.ch/record/2848670engHamilton, KeithKarlberg, AlexanderSalam, Gavin P.Scyboz, LudovicVerheyen, RobMatching and event-shape NNDL accuracy in parton showershep-phParticle Physics - PhenomenologyTo explore the interplay of NLO matching and next-to-leading logarithmic (NLL) parton showers, we consider the simplest case of γ$^{*}$ and Higgs-boson decays to $ q\overline{q} $ and gg respectively. Not only should shower NLL accuracy be retained across observables after matching, but for global event-shape observables and the two-jet rate, matching can augment the shower in such a way that it additionally achieves next-to-next-to-double-logarithmic (NNDL) accuracy, a first step on the route towards general NNLL. As a proof-of-concept exploration of this question, we consider direct application of multiplicative matrix-element corrections, as well as simple implementations of MC@NLO and POWHEG-style matching. We find that the first two straightforwardly bring NNDL accuracy, and that this can also be achieved with POWHEG, although particular care is needed in the handover between POWHEG and the shower. Our study involves both analytic and numerical components and we also touch on some phenomenological considerations.To explore the interplay of NLO matching and next-to-leading logarithmic (NLL) parton showers, we consider the simplest case of $\gamma^*$ and Higgs-boson decays to $q\bar q$ and $gg$ respectively. Not only should shower NLL accuracy be retained across observables after matching, but for global event-shape observables and the two-jet rate, matching can augment the shower in such a way that it additionally achieves next-to-next-to-double-logarithmic (NNDL) accuracy, a first step on the route towards general NNLL. As a proof-of-concept exploration of this question, we consider direct application of multiplicative matrix-element corrections, as well as simple implementations of MC@NLO and POWHEG-style matching. We find that the first two straightforwardly bring NNDL accuracy, and that this can also be achieved with POWHEG, although particular care is needed in the handover between POWHEG and the shower. Our study involves both analytic and numerical components and we also touch on some phenomenological considerations.arXiv:2301.09645oai:cds.cern.ch:28486702023-01-23
spellingShingle hep-ph
Particle Physics - Phenomenology
Hamilton, Keith
Karlberg, Alexander
Salam, Gavin P.
Scyboz, Ludovic
Verheyen, Rob
Matching and event-shape NNDL accuracy in parton showers
title Matching and event-shape NNDL accuracy in parton showers
title_full Matching and event-shape NNDL accuracy in parton showers
title_fullStr Matching and event-shape NNDL accuracy in parton showers
title_full_unstemmed Matching and event-shape NNDL accuracy in parton showers
title_short Matching and event-shape NNDL accuracy in parton showers
title_sort matching and event-shape nndl accuracy in parton showers
topic hep-ph
Particle Physics - Phenomenology
url https://dx.doi.org/10.1007/JHEP03(2023)224
http://cds.cern.ch/record/2848670
work_keys_str_mv AT hamiltonkeith matchingandeventshapenndlaccuracyinpartonshowers
AT karlbergalexander matchingandeventshapenndlaccuracyinpartonshowers
AT salamgavinp matchingandeventshapenndlaccuracyinpartonshowers
AT scybozludovic matchingandeventshapenndlaccuracyinpartonshowers
AT verheyenrob matchingandeventshapenndlaccuracyinpartonshowers

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