CalcHEP is a package for automatic calculations of elementary particle decay and collision properties in the lowest order of perturbation theory (the tree approximation). The main idea prescribed into the CalcHEP is to make available passing on from the Lagrangian to the final distributions effectively with a high level of automation. Other packages created to solve a similar problem are FeynArts/FeynCalc[1], GRACE[2], HELAS[3], MADGRAPH[4].

References in zbMATH (referenced in 49 articles , 1 standard article )

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  1. Denner, Ansgar; Dittmaier, Stefan: Electroweak radiative corrections for collider physics (2020)
  2. A. Dedes, M. Paraskevas, J. Rosiek, K. Suxho, L. Trifyllis: SmeftFR - Feynman rules generator for the Standard Model Effective Field Theory (2019) arXiv
  3. Arcadi, Giorgio; Lebedev, Oleg; Pokorski, Stefan; Toma, Takashi: Real scalar dark matter: relativistic treatment (2019)
  4. Duch, Mateusz; Grzadkowski, Bohdan; Huang, Da: Strongly self-interacting vector dark matter via freeze-in (2018)
  5. Summ, Benjamin; Voigt, Alexander: Extending the universal one-loop effective action by regularization scheme translating operators (2018)
  6. Urbina, José; Zerwekh, Alfonso R.: The linear BESS model at the LHC (2018)
  7. Belyaev, Alexander; Cacciapaglia, Giacomo; Cai, Haiying; Ferretti, Gabriele; Flacke, Thomas; Parolini, Alberto; Serodio, Hugo: Di-boson signatures as standard candles for partial compositeness (2017)
  8. Casas, J. A.; Cerdeño, D. G.; Moreno, J. M.; Quilis, J.: Reopening the Higgs portal for single scalar dark matter (2017)
  9. Dumont, Béranger: Higgs, supersymmetry and dark matter after run I of the LHC (2017)
  10. Flacke, Thomas; Kang, Dong Woo; Kong, Kyoungchul; Mohlabeng, Gopolang; Park, Seong Chan: Electroweak Kaluza-Klein dark matter (2017)
  11. Iguro, Syuhei; Tobe, Kazuhiro: (R(D^(\ast))) in a general two Higgs doublet model (2017)
  12. Khoze, Valentin V.; Plascencia, Alexis D.; Sakurai, Kazuki: Simplified models of dark matter with a long-lived co-annihilation partner (2017)
  13. Tang, Yi-Lei; Zhu, Shou-hua: Dark matter relic abundance and light sterile neutrinos (2017)
  14. Cacciapaglia, Giacomo; Deandrea, Aldo; Deutschmann, Nicolas: Dark matter and localised fermions from spherical orbifolds? (2016)
  15. Carmona, Adrián; Chala, Mikael: Composite dark sectors (2015)
  16. Lozano, Víctor Martín; Peiró, Miguel; Soler, Pablo: Isospin violating dark matter in Stückelberg portal scenarios (2015)
  17. Macías, Vannia González; Wudka, José: Effective theories for dark matter interactions and the neutrino portal paradigm (2015)
  18. Şahin, B.: Search for the anomalous (t q \gamma) and (t q H) couplings in (\gammap) collision at the LHC (2015)
  19. Staub, Florian: Exploring new models in all detail with \textttSARAH (2015)
  20. 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)

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