Next-to-leading order QCD calculations with parton showers. II. Soft singularities

23 March 2004

journal article
Published by American Physical Society (APS) in Physical Review D

Vol. 69 (5)
https://doi.org/10.1103/physrevd.69.054020

Abstract

Programs that calculate observables in quantum chromodynamics at next-to-leading order typically generate events that consist of partons rather than hadrons -- and just a few partons at that. These programs would be much more useful if the few partons were turned into parton showers, which could be given to one of the Monte Carlo event generators to produce hadron showers. In a previous paper, we have seen how to generate parton showers related to the final state collinear singularities of the perturbative calculation for the example of e+ + e- --> 3 jets. This paper discusses the treatment of the soft singularities.Comment: 26 pages with 5 figures. This version is close to the version to be publishe

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This publication has 24 references indexed in Scilit:

Next-to-leading order QCD calculations with parton showers. I. Collinear singularities
Physical Review D, 2004
Matching NLO QCD and parton showers in heavy flavour production
Journal of High Energy Physics, 2003
Next-to-leading order numerical calculations in the Coulomb gauge
Physical Review D, 2002
Matching NLO QCD computations and parton shower simulations
Journal of High Energy Physics, 2002
High-energy-physics event generation with Pythia 6.1
Computer Physics Communications, 2001
HERWIG 6: an event generator for hadron emission reactions with interfering gluons (including supersymmetric processes)
Journal of High Energy Physics, 2001
Ariadne version 4 — A program for simulation of QDC cascades implementing the colour dipole model
Computer Physics Communications, 1992
$Z$ and $Z$ production at $p \bar{p}$ colliders: Parton showers merged with $O (α_{s})$ Monte Carlo approach
Physical Review D, 1992
HERWIG 5.1 - a Monte Carlo event generator for simulating hadron emission reactions with interfering gluons
Computer Physics Communications, 1992
The Lund Monte Carlo for jet fragmentation and e+e- physics - jetset version 6.2
Computer Physics Communications, 1986