tWH associated production at the LHC View Full Text


Ontology type: schema:ScholarlyArticle      Open Access: True


Article Info

DATE

2017-01

AUTHORS

Federico Demartin, Benedikt Maier, Fabio Maltoni, Kentarou Mawatari, Marco Zaro

ABSTRACT

We study Higgs boson production in association with a top quark and a W boson at the LHC. At NLO in QCD, tWH interferes with [Formula: see text] and a procedure to meaningfully separate the two processes needs to be employed. In order to define tWH production for both total rates and differential distributions, we consider the diagram removal and diagram subtraction techniques that have been previously proposed for treating intermediate resonances at NLO, in particular in the context of tW production. These techniques feature approximations that need to be carefully taken into account when theoretical predictions are compared to experimental measurements. To this aim, we first critically revisit the tW process, for which an extensive literature exists and where an analogous interference with [Formula: see text] production takes place. We then provide robust results for total and differential cross sections for tW and tWH at 13 TeV, also matching short-distance events to a parton shower. We formulate a reliable prescription to estimate the theoretical uncertainties, including those associated to the very definition of the process at NLO. Finally, we study the sensitivity to a non-Standard-Model relative phase between the Higgs couplings to the top quark and to the W boson in tWH production. More... »

PAGES

34

References to SciGraph publications

  • 2008-04-16. The anti-kt jet clustering algorithm in JOURNAL OF HIGH ENERGY PHYSICS
  • 2014-09. Higgs characterisation at NLO in QCD: CP properties of the top-quark Yukawa interaction in THE EUROPEAN PHYSICAL JOURNAL C
  • 2013-10. Matching squark pair production at NLO with parton showers in JOURNAL OF HIGH ENERGY PHYSICS
  • 2013-03. Automatic spin-entangled decays of heavy resonances in Monte Carlo simulations in JOURNAL OF HIGH ENERGY PHYSICS
  • 2010-06. Charged Higgs boson production in association with a top quark in MC@NLO in THE EUROPEAN PHYSICAL JOURNAL C
  • 2007-04-25. Angular correlations of lepton pairs from vector boson and top quark decays in Monte Carlo simulations in JOURNAL OF HIGH ENERGY PHYSICS
  • 2011-02. Complete off-shell effects in top quark pair hadroproduction with leptonic decay at next-to-leading order in JOURNAL OF HIGH ENERGY PHYSICS
  • 2013-03. NLO corrections to squark-squark production and decay at the LHC in JOURNAL OF HIGH ENERGY PHYSICS
  • 2012-12. Merging meets matching in MC@NLO in JOURNAL OF HIGH ENERGY PHYSICS
  • 2011-02. Single-top Wt-channel production matched with parton showers using the POWHEG method in THE EUROPEAN PHYSICAL JOURNAL C
  • 2002-06-12. Matching NLO QCD computations and parton shower simulations in JOURNAL OF HIGH ENERGY PHYSICS
  • 2014-03. A unified NLO description of top-pair and associated Wt production in THE EUROPEAN PHYSICAL JOURNAL C
  • 2009-11-17. Isolating Wt production at the LHC in JOURNAL OF HIGH ENERGY PHYSICS
  • 2015-01. Squark production and decay matched with parton showers at NLO in THE EUROPEAN PHYSICAL JOURNAL C
  • 2015-06. Higgs production in association with a single top quark at the LHC in THE EUROPEAN PHYSICAL JOURNAL C
  • 2014-04. Disentangling Higgs-top couplings in associated production in JOURNAL OF HIGH ENERGY PHYSICS
  • 2015-06. Search for a standard model Higgs boson produced in association with a top-quark pair and decaying to bottom quarks using a matrix element method in THE EUROPEAN PHYSICAL JOURNAL C
  • 2014-01. Higgs characterisation via vector-boson fusion and associated production: NLO and parton-shower effects in THE EUROPEAN PHYSICAL JOURNAL C
  • 2013-05. Lifting degeneracies in Higgs couplings using single top production in association with a Higgs boson in JOURNAL OF HIGH ENERGY PHYSICS
  • 2012-03. FastJet user manual in THE EUROPEAN PHYSICAL JOURNAL C
  • 2008-07-08. Single-top hadroproduction in association with a W boson in JOURNAL OF HIGH ENERGY PHYSICS
  • 2014-06. NLO QCD corrections to W+W−bb¯ production with leptonic decays in the light of top quark mass and asymmetry measurements in JOURNAL OF HIGH ENERGY PHYSICS
  • 2012-10. NLO QCD corrections to off-shell top-antitop production with leptonic decays at hadron colliders in JOURNAL OF HIGH ENERGY PHYSICS
  • 2013-03. Merging multi-leg NLO matrix elements with parton showers in JOURNAL OF HIGH ENERGY PHYSICS
  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1140/epjc/s10052-017-4601-7

    DOI

    http://dx.doi.org/10.1140/epjc/s10052-017-4601-7

    DIMENSIONS

    https://app.dimensions.ai/details/publication/pub.1028179034

    PUBMED

    https://www.ncbi.nlm.nih.gov/pubmed/28260980


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