HERWIG 5.1

HERWIG 5.1 - a Monte Carlo event generator for simulating hadron emission reactions with interfering gluons. Nature of problem: Simulation of high energy particle collisions, especially those in which a high momentum transfer gives rise to the emission of jets of hadrons. The theoretical basis is the resummation of the perturbative QCD expansion including all asymptotic and some important subasymptotic contributions. Solution method: Monte Carlo simulation of a variety of primary collision processes, followed by parton shower generation using a coherent branching algorithm and hadron formation using a cluster fragmentation model. (Source: http://cpc.cs.qub.ac.uk/summaries/)


References in zbMATH (referenced in 48 articles , 1 standard article )

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  1. Corcella, Gennaro; Corianò, Claudio; Costantini, Antonio; Frampton, Paul H.: Exploring scalar and vector bileptons at the LHC in a 331 model (2018)
  2. Corcella, Gennaro; Franceschini, Roberto; Kim, Doojin: Fragmentation uncertainties in hadronic observables for top-quark mass measurements (2018)
  3. Nagy, Zoltán; Soper, Davison E.: Summing threshold logs in a parton shower (2016)
  4. Jäger, Barbara; von Manteuffel, Andreas; Thier, Stephan: Slepton pair production in association with a jet: NLO-QCD corrections and parton-shower effects (2015)
  5. The ATLAS collaboration: Search for lepton-flavour-violating (H\to\mu\tau) decays of the Higgs boson with the ATLAS detector (2015)
  6. Alwall, J.; Frederix, R.; Frixione, S.; Hirschi, V.; Maltoni, F.; Mattelaer, O.; Shao, H.-S.; Stelzer, T.; Torrielli, P.; Zaro, M.: The automated computation of tree-level and next-to-leading order differential cross sections, and their matching to parton shower simulations (2014)
  7. S.V. Chekanov: HepSim: a repository with predictions for high-energy physics experiments (2014) arXiv
  8. Kersevan, Borut Paul; Richter-Wąs, Elzbieta: The Monte Carlo event generator AcerMC versions 2.0 to 3.8 with interfaces to PYTHIA 6.4, HERWIG 6.5 and ARIADNE 4.1 (2013)
  9. Larkoski, Andrew J.; Salam, Gavin P.; Thaler, Jesse: Energy correlation functions for jet substructure (2013)
  10. Bagnaschi, E.; Degrassi, G.; Slavich, P.; Vicini, A.: Higgs production via gluon fusion in the POWHEG approach in the SM and in the MSSM (2012)
  11. Buckley, A.; Shilton, A.; White, M. J.: Fast supersymmetry phenomenology at the large hadron collider using machine learning techniques (2012)
  12. Liu, Bao; Song, Jie; Song, He-Shan: A direct measurement scheme of two quantum-dot qubits quantum correlation via detector current (2012)
  13. Alwall, Johan; Herquet, Michel; Maltoni, Fabio; Mattelaer, Olivier; Stelzer, Tim: MadGraph 5: going beyond (2011)
  14. Corke, Richard; Sjöstrand, Torbjörn: Multiparton interactions with an (x)-dependent proton size (2011)
  15. De Aquino, Priscila; Hagiwara, Kaoru; Li, Qiang; Maltoni, Fabio: Simulating graviton production at hadron colliders (2011)
  16. Demchik, Vadim: Pseudo-random number generators for Monte Carlo simulations on ATI graphics processing units (2011)
  17. Frixione, Stefano; Stoeckli, Fabian; Torrielli, Paolo; Webber, Bryan R.: NLO QCD corrections in Herwig++ with MC@NLO (2011)
  18. Alioli, Simone; Nason, Paolo; Oleari, Carlo; Re, Emanuele: A general framework for implementing NLO calculations in shower Monte Carlo programs: the POWHEG BOX (2010)
  19. Banfi, Andrea; Salam, Gavin P.; Zanderighi, Giulia: Phenomenology of event shapes at hadron colliders (2010)
  20. Binoth, T.; Boudjema, F.; Dissertori, G.; Lazopoulos, A.; Denner, A.; Dittmaier, S.; Frederix, R.; Greiner, N.; Höche, S.; Giele, W.; Skands, P.; Winter, J.; Gleisberg, T.; Archibald, J.; Heinrich, G.; Krauss, F.; Maître, D.; Huber, M.; Huston, J.; Kauer, N.; Maltoni, F.; Oleari, C.; Passarino, G.; Pittau, R.; Pozzorini, S.; Reiter, T.; Schumann, S.; Zanderighi, G.: A proposal for a standard interface between Monte Carlo tools and one-loop programs (2010)

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