TeVJet: A general framework for the calculation of jet observables in NLO QCD
Michael H. Seymour (Manchester/CERN), Christopher Tevlin (Manchester)
TL;DR
TeVJet is a flexible Monte Carlo framework implementing the dipole subtraction method for NLO QCD jet cross section calculations, enabling easy inclusion of new processes and automatic generation of finite phase space integrals.
Contribution
It introduces a general, process-independent Monte Carlo tool for NLO QCD jet calculations with automatic integral generation and straightforward process inclusion.
Findings
Successfully applied to example processes
Automates phase space integral generation
Facilitates inclusion of new processes
Abstract
In this paper we present the parton level Monte Carlo program TeVJet, a direct implementation of the dipole subtraction method for calculating jet cross sections in NLO QCD. It has been written so as to allow the inclusion of new processes in as straightforward a way as possible. The user must provide the usual ingredients for an NLO calculation and from these the process-independent parts required to make the phase space integrals finite in 4 dimensions are automatically generated. These integrals are then performed using Monte Carlo techniques. We present the results for a few example processes.
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Taxonomy
TopicsParticle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions · Cosmology and Gravitation Theories