Supersymmetry simulations with off-shell effects for the CERN LHC and an ILC
- 13 March 2006
- journal article
- Published by American Physical Society (APS) in Physical Review D
- Vol. 73 (5)
- https://doi.org/10.1103/physrevd.73.055005
Abstract
At the LHC and at an ILC, serious studies of new physics benefit from a proper simulation of signals and backgrounds. Using supersymmetric sbottom pair production as an example, we show how multi-particle final states are necessary to properly describe off-shell effects induced by QCD, photon radiation, or by intermediate on-shell states. To ensure the correctness of our findings we compare in detail the implementation of the supersymmetric Lagrangian in MadGraph, Sherpa and Whizard. As a future reference we give the numerical results for several hundred cross sections for the production of supersymmetric particles, checked with all three codesKeywords
All Related Versions
This publication has 100 references indexed in Scilit:
- SDECAY: a Fortran code for the decays of the supersymmetric particles in the MSSMComputer Physics Communications, 2005
- SPheno, a program for calculating supersymmetric spectra, SUSY particle decays and SUSY particle production at e+e− collidersComputer Physics Communications, 2003
- SOFTSUSY: A program for calculating supersymmetric spectraComputer Physics Communications, 2002
- NEXTCALIBUR – A four-fermion generator for electron–positron collisionsComputer Physics Communications, 2001
- HELAC: A package to compute electroweak helicity amplitudesComputer Physics Communications, 2000
- Vegas revisited: Adaptive Monte Carlo integration beyond factorizationComputer Physics Communications, 1999
- circe Version 1.02: beam spectra for simulating linear collider physicsComputer Physics Communications, 1997
- Weight optimization in multichannel Monte CarloComputer Physics Communications, 1994
- Automatic generation of tree level helicity amplitudesComputer Physics Communications, 1994
- The Lund Monte Carlo for hadronic processes — PYTHIA version 4.8Computer Physics Communications, 1987