Morag Williams: MSci Project Wiki

Project Title: Sensitivity to beyond Standard Model physics through Higgs production at CLIC using effective field theories. Supervisor: Aidan Robson.

In Progress.

MADGRAPH Generating Steps

All using MADGRAPH 2.4.3, which requires Python 2.6 or 2.7. Using the Higgs Effective Lagrangian (HEL) Universal FeynRules Output (UFO) model which can be found here: https://feynrules.irmp.ucl.ac.be/wiki/HEL.

1) Start MADGRAPH:

cd MG5_aMC_v2_4_3/bin/

./mg5_aMC

This opens the MADGRAPH5_ aMC @ NLO interface.

2) Import the HEL_UFO model (which needs to have been copied to your models directory):

import model HEL_UFO

3) Generate electron + positron -> Higgs + electron + positron events, with a new physics parameter and QED type stated.

generate e- e+ > h e- e+ QED=4 NP=1

4) Write to output directory of name ee_hee2

output ee_hee2

quit

5) Travel to the new directory /bin/ee_hee2 and change the run card parameters as needed in file Cards/run_card.dat.

6) Start the MadEvent interface and generate events with the run card parameters specified in run_card.dat.

cd /ee_hee2/bin/

./madevent

generate_events

This will open a web page showing the generation progress and main parameters (such as the particle interaction and beam energies), and create an output file unweighted_events.lhe.gz in Events/run_01. A file run_01_tag_1_banner.txt is also created in /Events/run_01 listing all commands used in the MADGRAPH and MadEvent interfaces and all run card parameters used.

ETA Graphs for different EFT parameters

Coming soon.

-- Morag Williams - 2016-11-07

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