CompHep

CompHEP - a package for evaluation of Feynman diagrams and integration over multi-particle phase space. CompHEP 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 CompHEP is to make available passing on from the Lagrangian to the final distributions effectively with a high level of automation.


References in zbMATH (referenced in 28 articles )

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  1. Staub, Florian: SARAH 4: a tool for (not only SUSY) model builders (2014)
  2. Belyaev, Alexander; Christensen, Neil D.; Pukhov, Alexander: CalcHEP 3.4 for collider physics within and beyond the standard model (2013)
  3. Gilewsky, V.: Three-boson form-factors in W-pair production (2013)
  4. Kersevan, Borut Paul; Richter-Waş, 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)
  5. Hashi, Manami; Kitazawa, Noriaki: Signatures of low-scale string models at the LHC (2012)
  6. Alwall, Johan; Herquet, Michel; Maltoni, Fabio; Mattelaer, Olivier; Stelzer, Tim: MadGraph 5: going beyond (2011)
  7. Cacciapaglia, Giacomo; Deandrea, Aldo; Llodra-Perez, Jérémie: The universal Real Projective Plane: LHC phenomenology at one loop (2011)
  8. Demchik, Vadim: Pseudo-random number generators for Monte Carlo simulations on ATI graphics processing units (2011)
  9. Dixon, Lance J.; Henn, Johannes M.; Plefka, Jan; Schuster, Theodor: All tree-level amplitudes in massless QCD (2011)
  10. Duhr, Claude; Fuks, Benjamin: A superspace module for the FeynRules package (2011)
  11. Kara, S.O.; Sahin, M.; Sultansoy, S.; Turkoz, S.: A search for leptophilic $Z_l$ boson at future linear colliders (2011)
  12. Staub, Florian: Automatic calculation of supersymmetric renormalization group equations and loop corrections (2011)
  13. Aoki, Mayumi; Kanemura, Shinya; Shindou, Tetsuo; Yagyu, Kei: An R-parity conserving radiative neutrino mass model without right-handed neutrinos (2010)
  14. 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.; Ma{^ı}tre, 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)
  15. Frederix, R.; Gehrmann, T.; Greiner, N.: Integrated dipoles with MadDipole in the MadGraph framework (2010)
  16. Gehrmann, T.; Greiner, N.: Photon radiation with MadDipole (2010)
  17. Kilic, Can; Okui, Takemichi: The LHC phenomenology of vectorlike confinement (2010)
  18. Mastrolia, P.; Ossola, G.; Reiter, T.; Tramontano, F.: Scattering amplitudes from unitarity-based reduction algorithm at the integrand-level (2010)
  19. Matsumoto, Shigeki; Nabeshima, Takehiro; Yoshioka, Koichi: Seesaw neutrino signals at the Large Hadron Collider (2010)
  20. Staub, Florian: From superpotential to model files for FeynArts and CalcHep/CompHep (2010)

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