Benjamin extended FeynRules to allow superfield formulation for MSSM and its extentions, and together with Olivier and others invented UFO. In short, you can now perform full LHC event simulation for any new physics models, as long as you can express them in the QFT language, once you master FeynRules and MG5/ME. Johan and Olivier are the original authors of MG5 which solved many outstanding problem of the old MadGraph (Long-Stelzer, 1994) and is in the core of the following exciting developments.įeynRules is a Mathematica package which produces Feynman Rules of an arbitrary Lagrangian model in the Universal FeynRules Output (UFO) format, which can then be made into Automatic Language-independent Output Helicity Amplitude (ALOHA) that is used to compute helicity amplitudes of any processes by MG5/ME. Matching of parton shower (PS) and matrix element is the key for realistic even simulations, and the MLM method with Pythia PS is adopted in ME. ME stands for MadEvent which generates parton or hadronic events based on the matrix element. MG5 is the latest version of MadGraph written in Python language, which allows us to generates codes for scattering matrix elements for any models described by a quantum field theory Lagrangian. The main lecturers/tutors of the school are as follows: We are organizing a one-week school on MadGraph for LHC physics simulation at KIAS (Korea Institute for Advanced Studies) in Seoul, from Oct/24(Mon) to Oct/29(Sat).
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